Astronomy Picture of the Day |
APOD: 2024 September 10 – Horsehead and Orion Nebulas
Explanation:
The dark Horsehead Nebula and the glowing
Orion Nebula are contrasting cosmic vistas.
Adrift 1,500 light-years away in one of
the night sky's
most recognizable
constellations,
they appear in opposite corners of the above
stunning mosaic.
The familiar Horsehead
nebula appears as a dark cloud, a
small silhouette
notched against the long glow of hydrogen -- here shown in gold -- at the lower left.
Alnitak is the easternmost star in
Orion's belt and is seen as the bright
star to the left of the
Horsehead.
Just below Alnitak is the
Flame Nebula, with clouds of
bright emission and
dramatic dark dust lanes.
The magnificent emission region, the
Orion Nebula (aka M42), lies at the upper right.
Immediately to its left is a prominent
reflection nebula sometimes called the Running Man.
Pervasive tendrils
of glowing hydrogen gas are easily
traced
throughout the region.
APOD: 2024 January 23 – Deep Nebulas: From Seagull to California
Explanation:
How well do you know the night sky?
OK, but how well can you identify famous sky objects in a
very deep image?
Either way, here is a test: see if you can find some well-known
night-sky icons
in a deep image filled with faint nebulosity.
This image contains the
Pleiades star cluster,
Barnard's Loop,
Horsehead Nebula,
Orion Nebula,
Rosette Nebula,
Cone Nebula,
Rigel,
Jellyfish Nebula,
Monkey Head Nebula,
Flaming Star Nebula,
Tadpole Nebula,
Aldebaran,
Simeis 147,
Seagull Nebula and the
California Nebula.
To find their real locations,
here is an annotated image version.
The reason this task might be difficult is similar to the reason it is initially hard to identify familiar
constellations
in a very
dark sky:
the tapestry of our night sky has an extremely deep
hidden complexity.
The
featured composite
reveals some of
this complexity in a
mosaic of 28 images taken over 800 hours from dark skies over
Arizona,
USA.
APOD: 2023 November 20 – The Horsehead Nebula
Explanation:
Sculpted by stellar winds and
radiation, a magnificent interstellar dust cloud by
chance has assumed this
recognizable shape.
Fittingly named the
Horsehead Nebula, it is some 1,500 light-years
distant,
embedded in the vast Orion cloud complex.
About five light-years "tall," the dark cloud is cataloged as
Barnard 33
and is visible only because its
obscuring dust is silhouetted
against the glowing red emission nebula IC 434.
Stars are forming within the dark cloud.
Contrasting blue
reflection nebula NGC 2023, surrounding a hot, young
star, is at the lower left of
the full image.
The featured gorgeous
color image
combines both
narrowband and
broadband images recorded using several different telescopes.
APOD: 2023 October 10 – Hidden Orion from Webb
Explanation:
The Great Nebula in Orion has hidden stars.
To the unaided eye in visible light, it appears as a small
fuzzy patch in the
constellation of Orion.
But this image was taken by the
Webb Space Telescope
in a representative-color composite of red and very near
infrared light.
It confirms with impressive detail that the
Orion Nebula is a busy neighborhood of
young stars, hot gas, and dark dust.
The rollover image
shows the same image in representative colors further into the
near infrared.
The power behind much of the
Orion Nebula (M42) is the
Trapezium -
a cluster of bright stars near the nebula's center.
The diffuse and
filamentary glow
surrounding the bright stars is mostly heated interstellar
dust.
Detailed inspection of these images shows an
unexpectedly large number of Jupiter-Mass Binary Objects
(JuMBOs), pairs of Jupiter-mass
objects which might give a clue to how stars are forming.
The whole
Orion Nebula cloud complex, which
includes the
Horsehead Nebula,
will slowly disperse over the next few million years.
APOD: 2023 September 26 – IC 4592: The Blue Horsehead Reflection Nebula
Explanation:
Do you see the horse's head?
What you are seeing is not the famous
Horsehead nebula toward
Orion, but
rather a fainter nebula that only takes on a
familiar form with deeper imaging.
The main part of the
here-imaged
molecular cloud complex is
reflection nebula
IC 4592.
Reflection nebulas are made up of very fine
dust that normally appears dark but can
look quite blue when reflecting the
visible light
of energetic nearby stars.
In this case, the source of much of the reflected light is a star
at the eye of the
horse.
That star is part of
Nu Scorpii,
one of the brighter star systems toward the constellation of the Scorpion
(Scorpius).
A second
reflection nebula dubbed
IC 4601 is visible surrounding
two stars above and to the right of the image center.
APOD: 2022 December 29 - Horsehead and Flame
Explanation:
The Horsehead Nebula,
famous celestial
dark marking also known as Barnard 33,
is notched against a background glow of emission nebulae in
this sharp cosmic skyscape.
About five light-years "tall" the Horsehead
lies some 1,500 light-years away in the constellation
of Orion.
Within the region's fertile molecular cloud complex,
the expanse of obscuring dust has a recognizable shape only
by chance from
our perspective
in the
Milky Way
though.
Orion's easternmost belt star, bright Alnitak,
is to the left of center.
Energetic ultraviolet light from
Alnitak powers the glow of
dusty NGC 2024, the Flame Nebula, just below it.
Completing a study in cosmic contrasts, bluish reflection
nebula NGC 2023 is below the Horsehead itself.
This well-framed telescopic field spans about 3 full moons on
the sky.
APOD: 2022 September 21 - The Horsehead Nebula in Infrared from Hubble
Explanation:
While drifting through the cosmos,
a magnificent interstellar dust cloud became sculpted by
stellar winds and radiation to assume a
recognizable shape.
Fittingly named the
Horsehead Nebula, it is embedded in the
vast and complex Orion Nebula (M42).
A potentially rewarding but difficult object to
view personally
with a small telescope, the
featured gorgeously detailed image was
taken in
infrared light
by the orbiting
Hubble Space Telescope.
The dark molecular cloud, roughly 1,500
light years distant, is cataloged as Barnard 33 and is seen above primarily because it is backlit by the nearby massive star
Sigma Orionis.
The Horsehead Nebula will slowly shift its
apparent shape over the next few million years and will eventually be
destroyed by
high energy starlight.
APOD: 2022 August 29 - The Horsehead Nebula Region without Stars
Explanation:
The famous Horsehead Nebula in Orion is not alone.
A deep exposure shows that the
dark familiar shaped indentation,
visible just right of center, is part of a
vast complex of absorbing
dust and
glowing gas.
The featured
spectacular picture details an intricate
tapestry of gaseous wisps and dust-laden
filaments that were created and sculpted over eons by
stellar winds and ancient
supernovas.
The Flame Nebula is visible in orange just to the Horsehead's left.
To highlight the dust and gas, most of the
stars have been
digitally removed, although a notable exception is
Alnitak,
just above the Flame Nebula, which is the rightmost star in
Orion's famous belt of three aligned stars.
The Horsehead Nebula
lies 1,500 light years
distant towards the
constellation of Orion.
APOD: 2022 August 20 - Stardust and Comet Tails
Explanation:
Heading for its closest approach to the Sun, or perihelion,
on December 19 comet
C/2017 K2 (PanSTARRS) remains a sight
for telescopic observers as it sweeps through planet Earth's skies
in the constellation Scorpius.
The comet currently
sports a greenish
coma, long whitish dust tail, and short ion tail in this
deep image from August 18.
The 2x3 degree wide field of view includes part of the dusty
nebula IC 4592 reflecting blue starlight.
Also known as the Blue Horsehead Nebula,
IC 4592 is about 400 light-years distant while the comet is just under
17 light-minutes away.
First spotted at a distance well beyond the orbit of Saturn
C/2017 K2
is on its maiden voyage to the inner solar system,
a pristine visitor from the
remote Oort cloud.
APOD: 2022 April 16 - Orion Pines
Explanation:
Taken with a camera fixed to a tripod, many short exposures
were aligned with the stars to unveil this beautiful, dark night sky.
Captured near
the rural village of Albany`a
at the northeastern corner of Spain, the three
stars of Orion's belt stretch across top center in the starry frame.
Alnitak, the easternmost (left) of the
belt stars is seen next to the more diffuse glow of the
Flame Nebula
and the dark notch of the famous Horsehead.
Easily visible to the naked-eye
The Great Nebula of Orion
is below the belt stars.
A mere 1,500 light-years distant, it is the closest large
stellar nursery to our fair planet.
Best seen in photographs, the broad and faint arc of
Barnard's Loop seems to
embrace Orion's brighter
stars and nebulae though.
In the northern spring the familiar
northern winter constellation
is setting.
Near the western horizon toward lower right Orion's
apparently bright
blue supergiant Rigel just touches the branches of a pine tree.
APOD: 2022 March 7 - A Lion in Orion
Explanation:
Yes, but can you see the lion?
A deep exposure shows the famous
dark indentation that looks like a
horse's head, visible just left and below center, and
known unsurprisingly as the Horsehead Nebula.
The Horsehead Nebula (Barnard 33) is part of a
vast complex of dark absorbing
dust and bright
glowing gas.
To bring out details of the
Horsehead's pasture,
an astrophotographer artistically combined light
accumulated for over 20 hours in
hydrogen (orange),
oxygen (blue), and
sulfur (green).
The resulting spectacular picture
captured from Raachine,
Lebanon,
details an intricate
tapestry of gaseous wisps
and dust-laden
filaments that were created and
sculpted over eons by
stellar winds and
ancient supernovas.
The featured composition brings up another
pareidolic
animal icon -- that of a lion's head --
in the expansive orange colored gas above the horse's head.
The Flame Nebula
is visible just to the left of the Horsehead.
The Horsehead Nebula lies 1,500
light years distant towards the constellation of
Orion.
APOD: 2022 January 11 - Orions Belt Region in Gas and Dust
Explanation:
You may have seen Orion's belt before -- but not like this.
The three bright stars across this image are, from left to right,
Mintaka,
Alnilam, and
Alnitak: the iconic
belt stars of
Orion.
The rest of the
stars in the frame have been digitally removed to
highlight the surrounding clouds of glowing gas and dark dust.
Some of these clouds have intriguing shapes, including the
Horsehead and
Flame Nebulas, both near Alnitak on the lower right.
This deep image,
taken last month from the
Marathon Skypark
and Observatory in
Marathon,
Texas,
USA,
spans about 5 degrees, required about 20 hours of exposure,
and was processed to reveal the gas and dust that we would
really see if we were much closer.
The famous Orion Nebula
is off to the upper right of this colorful field.
The entire region lies only about 1,500
light-years
distant and so is one of the closest and
best studied star formation nurseries known.
APOD: 2021 November 3 - The Horsehead and Flame Nebulas
Explanation:
The Horsehead
Nebula is one of the most famous nebulae on the sky.
It is visible as the dark indentation to the orange
emission nebula
at the far right of the
featured picture.
The horse-head
feature is dark because it is really an opaque
dust cloud that lies in
front of the bright
emission nebula.
Like clouds in
Earth's atmosphere, this cosmic cloud has assumed a
recognizable shape by chance.
After
many thousands of years, the internal motions of the cloud
will surely alter its appearance.
The emission nebula's orange color is caused by
electrons recombining with
protons to form
hydrogen atoms.
Toward the lower left of the image is the
Flame Nebula,
an orange-tinged nebula that also contains intricate
filaments of dark dust.
Two prominent
reflection nebulas
are visible: round
IC 432 on the far left, and
blue
NGC 2023 just to the lower left of the Horsehead nebula.
Each glows primarily by
reflecting the light of their central star.
APOD: 2021 July 5 - IC 4592: The Blue Horsehead Reflection Nebula
Explanation:
Do you see the horse's head?
What you are seeing is not the famous
Horsehead nebula toward
Orion but
rather a fainter nebula that only takes on a
familiar form with deeper imaging.
The main part of the
here imaged
molecular cloud complex is a
reflection nebula
cataloged as
IC 4592.
Reflection nebulas are actually made up of very fine
dust that normally appears dark but can
look quite blue when reflecting the
visible light
of energetic nearby stars.
In this case, the source of much of the reflected light is a star
at the eye of the
horse.
That star is part of
Nu Scorpii,
one of the brighter star systems toward the constellation of the Scorpion
(Scorpius).
A second
reflection nebula dubbed
IC 4601 is visible surrounding
two stars to the right of the image center.
APOD: 2021 May 9 - Horsehead and Orion Nebulas
Explanation:
The dark Horsehead Nebula and the glowing
Orion Nebula are contrasting cosmic vistas.
Adrift 1,500 light-years away in one of
the night sky's
most recognizable
constellations,
they appear in opposite corners of the above
stunning mosaic.
The familiar Horsehead
nebula appears as a dark cloud, a
small silhouette
notched against the long red glow at the lower left.
Alnitak is the easternmost star in
Orion's belt and is seen as the brightest
star to the left of the
Horsehead.
Below Alnitak is the
Flame Nebula, with clouds of
bright emission and
dramatic dark dust lanes.
The magnificent emission region, the
Orion Nebula (aka M42), lies at the upper right.
Immediately to its left is a prominent
reflection nebula sometimes called the Running Man.
Pervasive tendrils
of glowing hydrogen gas are easily
traced
throughout the region.
APOD: 2021 April 12 - Alnitak and the Flame Nebula
Explanation:
What lights up the Flame Nebula?
Fifteen hundred
light years away towards the
constellation of
Orion lies a nebula which, from its glow and dark
dust lanes,
appears, on the left, like a billowing fire.
But fire,
the rapid acquisition of
oxygen,
is not what makes this
Flame glow.
Rather the bright star Alnitak, the easternmost star in the
Belt of Orion
visible on the far left, shines energetic light into the
Flame that knocks electrons away from the great clouds of
hydrogen
gas that reside there.
Much of the glow results when the electrons and
ionized hydrogen recombine.
The featured picture of the Flame Nebula (NGC 2024) was taken across three
visible color
bands
with detail added by a
long duration exposure taken in
light emitted only by hydrogen.
The Flame Nebula is part of the
Orion Molecular Cloud Complex,
a star-forming region that includes the famous
Horsehead Nebula.
APOD: 2021 March 22 - From Auriga to Orion
Explanation:
What's up in the sky from Auriga to Orion?
Many of the famous stars and nebulas in this region were captured on 34 separate images,
taking over 430 hours of exposure, and digitally combined to reveal the
featured image.
Starting on the far upper left, toward the constellation of Auriga (the Chariot driver), is the picturesque
Flaming Star Nebula (IC 405).
Continuing down along the bright arc of our
Milky Way Galaxy, from left to right crossing the
constellations of the Twins and the Bull, notable appearing nebulas include the
Tadpole,
Simeis 147,
Monkey Head,
Jellyfish,
Cone and
Rosette nebulas.
In the upper right quadrant of the image,
toward the constellation of Orion (the hunter),
you can see
Sh2-264,
the half-circle of Barnard's Loop, and the
Horsehead and
Orion nebulas.
Famous stars in and
around Orion include, from left to right, orange
Betelgeuse (just right of the image center), blue
Bellatrix (just above it), the
Orion belt stars of Mintaka, Alnilam, and Alnitak,
while bright Rigel appears on the far upper right.
This stretch of sky
won't be remaining up
in the night very long -- it will be setting
continually earlier in the evening as
mid-year approaches.
APOD: 2020 November 12 - Comet ATLAS and Orion's Belt
Explanation:
With its closest approach to planet Earth scheduled for November 14,
this Comet ATLAS (C/2020 M3) was discovered just this summer,
another comet found by the NASA funded
Asteroid Terrestrial-impact Last Alert System.
It won't get as bright
as Comet NEOWISE
but it can still be spotted using binoculars, as it
currently sweeps through the familiar constellation of Orion.
This telephoto field from November 8,
blends exposures registered on the comet with exposures
registered on Orion's stars.
It creates an effectively deep skyview that shows colors and details you
can't quite see though, even in binoculars.
The comet's telltale greenish coma is toward the upper left, above
Orion's three belt stars lined-up across the frame below center.
You'll also probably spot the Orion Nebula, and famous Horsehead Nebula
in the stunning field of view.
Of course one of
Orion's belt stars is nearly 2,000 light-years away.
On November 14,
this comet ATLAS
will fly a mere 2.9 light-minutes from Earth.
APOD: 2020 October 4 - Orion Nebula in Oxygen, Hydrogen, and Sulfur
Explanation:
Few astronomical sights excite the imagination like the
nearby stellar nursery known as the Orion Nebula.
The Nebula's glowing gas
surrounds hot young stars at the edge of an immense interstellar
molecular cloud.
Many of the filamentary structures visible in the featured image are actually
shock waves -
fronts where fast moving material encounters slow moving gas.
The Orion Nebula spans about 40
light years
and is located about 1500 light years away in the
same spiral arm
of our Galaxy as the
Sun.
The Great Nebula in
Orion can be found with the
unaided eye just below and to the left of the easily identifiable
belt of three stars in the popular constellation Orion.
The image shows the nebula in
three colors
specifically emitted by
hydrogen,
oxygen, and
sulfur gas.
The whole Orion Nebula cloud complex,
which includes the
Horsehead Nebula,
will slowly disperse over the next 100,000 years.
APOD: 2020 June 9 - Orion over Argentine Mountains
Explanation:
Do you recognize the constellation of Orion?
It may be harder than usual in today's
featured image
because the camera has zoomed in on the center,
and the exposure is long enough to enhance
nebulas beyond what the unaided
human eye can see.
Still, once you become oriented, you can see
Orion's three belt stars
lined up vertically near the image center, and even locate the
familiar Orion Nebula on the upper left.
Famous faint features that are also visible include the dark
Horsehead Nebula indentation near the image center,
and the dusty
Flame Nebula just to its right.
Part of the
Orion-encircling
Barnard's Loop can also be found on the far right.
The image combines multiple
sky-tracking shots of the background in different colors
with a single static foreground exposure taken at twilight -- all
captured
with the same camera and from the same location.
The picturesque scene was captured early last year from mountains in
San Juan,
Argentina.
APOD: 2020 April 12 - The Horsehead Nebula in Infrared from Hubble
Explanation:
While drifting through the cosmos,
a magnificent interstellar dust cloud became sculpted by
stellar winds and radiation to assume a
recognizable shape.
Fittingly named the
Horsehead Nebula, it is embedded in the vast and complex Orion Nebula (M42).
A potentially rewarding but difficult object to
view personally
with a small telescope, the
above gorgeously detailed image was
taken in 2013 in
infrared light
by the orbiting
Hubble Space Telescope
in honor of the 23rd anniversary of
Hubble's launch.
The dark molecular cloud, roughly 1,500
light years distant, is cataloged as Barnard 33 and is seen above primarily because it is backlit by the nearby massive star
Sigma Orionis.
The Horsehead Nebula will slowly shift its
apparent shape over the next few million years and will eventually be destroyed by the
high energy starlight.
APOD: 2020 March 29 - A 212 Hour Exposure of Orion
Explanation:
The constellation of Orion is much more than three stars in a row.
It is a direction in space that is
rich with impressive nebulas.
To better appreciate this well-known swath of sky, an
extremely long exposure was taken over many clear nights in 2013 and 2014.
After 212 hours of camera time and an
additional year of processing, the featured 1400-exposure collage spanning over 40 times the
angular diameter of
the Moon emerged.
Of the many interesting details that have become visible, one that particularly draws the eye is
Barnard's Loop, the bright red circular filament arcing down from the middle.
The Rosette Nebula is not the giant red nebula near the top of the image -- that is a larger but lesser known nebula known as Lambda Orionis.
The Rosette Nebula is visible, though: it is the red and white nebula on the upper left.
The bright orange star just above the frame center is
Betelgeuse, while the bright blue star on the lower right is
Rigel.
Other famous nebulas visible include
the Witch Head Nebula,
the Flame Nebula,
the Fox Fur Nebula, and, if you know just where to look,
the comparatively small Horsehead Nebula.
About those
famous three stars that cross the belt of
Orion the Hunter --
in this busy frame they can be hard to locate, but a
discerning eye will find them just below and to the right of the image center.
APOD: 2019 December 17 - The Horsehead Nebula
Explanation:
Sculpted by stellar winds and
radiation, a magnificent interstellar dust cloud by
chance has assumed this
recognizable shape.
Fittingly named the
Horsehead
Nebula, it is some 1,500 light-years
distant,
embedded in the vast Orion cloud complex.
About five light-years "tall", the dark cloud is cataloged as
Barnard 33
and is visible only because its
obscuring dust is silhouetted
against the glowing red emission nebula IC 434.
Stars are forming within the dark cloud.
Contrasting blue
reflection nebula NGC 2023, surrounding a hot, young
star, is at the lower left of
the full image.
The featured gorgeous
color image
combines both
narrowband and
broadband images recorded using several different telescopes.
APOD: 2019 October 7 - Io Eclipse Shadow on Jupiter from Juno
Explanation:
What's that dark spot on Jupiter?
It's the shadow of
Jupiter's most volcanic moon
Io.
Since Jupiter shines predominantly by reflected sunlight,
anything that blocks that light
leaves a shadow.
If you could somehow be in that shadow, you would see a
total eclipse of the Sun by
Io.
Io's shadow is about
3600 kilometers across, roughly the same size as
Io itself -- and only slightly larger than
Earth's Moon.
The
featured
image was
taken
last month by NASA's robotic
Juno spacecraft currently orbiting Jupiter.
About every two months,
Juno swoops
close by Jupiter, takes a lot of data and snaps a series of images --
some of which are
made into
a video.
Among many other things, Juno has been measuring Jupiter's gravitational field, finding
surprising evidence that Jupiter may be mostly a liquid.
Under unexpectedly thick clouds, the Jovian giant may house a massive
liquid hydrogen
region that extends all the way to the center.
APOD: 2019 October 6 - The Horsehead Nebula
Explanation:
The Horsehead
Nebula is one of the most famous nebulae on the sky.
It is visible as the dark indentation to the red
emission nebula
in the center of the above photograph.
The horse-head
feature is dark because it is really an opaque
dust cloud that lies in
front of the bright red
emission nebula.
Like clouds in
Earth's atmosphere, this cosmic cloud has assumed a
recognizable shape by chance.
After many thousands of years, the internal motions of the cloud
will surely alter its appearance.
The emission nebula's red color is caused by
electrons recombining with
protons to form
hydrogen atoms.
On the image left is the
Flame Nebula, an orange-tinged nebula that also contains filaments of dark dust.
Just to the lower left of the Horsehead nebula
featured picture is a blueish
reflection nebulae that
preferentially reflects
the blue light from
nearby stars.
APOD: 2019 May 13 - Rho Ophiuchi Wide Field
Explanation:
The colorful clouds surrounding the star system Rho Ophiuchi
compose one of the closest star forming regions.
Rho Ophiuchi itself is a
binary star system visible in the
blue reflection nebula just to the left of the image center.
The star system, located only 400
light years away, is distinguished by its
multi-colored surroundings,
which include a red
emission nebula and numerous
light and dark brown dust lanes.
Near the lower left of the Rho Ophiuchi
molecular cloud system is the yellow star
Antares, while a distant but coincidently-superposed
globular cluster of stars,
M4, is visible just to the right
of Antares.
Near the image top lies IC 4592, the
Blue Horsehead nebula.
The blue glow that surrounds the Blue Horsehead's eye -- and other stars around the image -- is a reflection nebula composed of fine dust.
On the
featured image right is a geometrically angled reflection nebula
cataloged as
Sharpless 1.
Here, the bright star near the dust vortex creates the light of surrounding
reflection nebula.
Although most of
these features are visible through a small telescope pointed toward the constellations of
Ophiuchus,
Scorpius, and
Sagittarius, the only way to see the intricate details of the dust swirls, as featured above, is to use a
long exposure camera.
APOD: 2019 April 3 - Wisps Surrounding the Horsehead Nebula
Explanation:
The famous Horsehead Nebula in Orion is not alone.
A deep exposure shows that the
dark familiar shaped indentation,
visible just below center, is part of a
vast complex of absorbing
dust and
glowing gas.
To bring out details of the
Horsehead's pasture,
an amateur astronomer used a backyard telescope in
Austria
to accumulate and artistically combine
7.5 hours of images in the light of
Hydrogen (red),
Oxygen (green), and
Sulfur (blue).
The resulting
spectacular picture details an intricate
tapestry of gaseous wisps
and dust-laden
filaments that were created and
sculpted over eons by
stellar winds and
ancient supernovas.
The Flame Nebula
is visible just to the left of the Horsehead, while
the bright star on the upper left is
Alnilam, the central star in
Orion's Belt.
The Horsehead Nebula lies 1,500
light years distant towards the constellation of
Orion.
APOD: 2019 March 18 - Horsehead and Orion Nebulas
Explanation:
The dark Horsehead Nebula and the glowing
Orion Nebula are contrasting cosmic vistas.
Adrift 1,500
light-years
away in one of the night sky's
most recognizable
constellations,
they appear in opposite corners of the above
stunning two-panel mosaic.
The familiar Horsehead
nebula appears as a dark cloud on the lower left, a small
silhouette
notched against the glow of hydrogen
(alpha) gas,
here tinted orange.
Alnitak is the easternmost star in
Orion's belt and can be found
to the left of the
Horsehead.
Below Alnitak is the
Flame Nebula, with clouds of
bright emission and
dramatic dark dust lanes.
The magnificent emission region, the
Orion Nebula (aka M42), lies at the upper right,
surrounded by the blue glow of reflecting dust.
Immediately to its left is a prominent
reflection nebula sometimes called the Running Man.
Pervasive tendrils
of glowing hydrogen gas are easily
traced
throughout the region.
APOD: 2019 January 2 - The Orion Nebula in Infrared from WISE
Explanation:
The Great Nebula in Orion is an intriguing place.
Visible to the unaided eye, it appears as a small
fuzzy patch in the
constellation of Orion.
But
this image,
an illusory-color four-panel mosaic taken in different bands of
infrared light with the
Earth orbiting
WISE observatory, shows the
Orion Nebula
to be a bustling
neighborhood of recently formed stars,
hot gas, and dark dust.
The power behind much of the
Orion Nebula (M42) is the stars of the
Trapezium star cluster, seen
near the center of the
featured image.
The orange glow surrounding the
bright stars pictured here is their own
starlight reflected
by intricate dust filaments that
cover much of the region.
The current
Orion Nebula cloud complex, which
includes the
Horsehead Nebula,
will slowly disperse over the next 100,000 years.
APOD: 2018 November 5 - IC 4592: The Blue Horsehead Reflection Nebula
Explanation:
Do you see the horse's head?
What you are seeing is not the famous
Horsehead nebula toward
Orion but
rather a fainter nebula that only takes on a familiar form with deeper imaging.
The main part of the
here imaged
molecular cloud complex is a
reflection nebula
cataloged as
IC 4592.
Reflection nebulas are actually made up of very fine
dust that normally appears dark but can
look quite blue when reflecting the
light
of energetic nearby stars.
In this case, the source of much of the reflected light is a star
at the eye of the
horse.
That star is part of
Nu Scorpii,
one of the brighter star systems toward the constellation of the Scorpion
(Scorpius).
A second
reflection nebula dubbed
IC 4601 is visible surrounding two stars to the right of the image center.
APOD: 2018 October 14 - Orion in Red and Blue
Explanation:
When did Orion become so flashy?
This colorful rendition of part of the
constellation of Orion comes from red light emitted by
hydrogen and
sulfur
(SII), and blue-green light emitted by
oxygen
(OIII).
Hues on the
featured image
were then digitally reassigned to be indicative of their
elemental origins -- but also striking to the
human eye.
The breathtaking composite was
painstakingly composed from
hundreds of images which took nearly 200 hours to collect.
Pictured, Barnard's Loop, across the image bottom,
appears to cradle interstellar constructs including the intricate
Orion Nebula seen just right of center.
The Flame Nebula can also be quickly located,
but it takes a careful eye to identify the slight indentation of the dark
Horsehead Nebula.
As to Orion's flashiness -- a leading explanation for the origin of
Barnard's Loop is a
supernova blast that occurred about two million years ago.
APOD: 2018 July 2 - From the Galactic Plane through Antares
Explanation:
Behold one of the most photogenic regions of the night sky, captured impressively.
Featured, the band of our
Milky Way Galaxy runs diagonally along the far left, while the
colorful Rho Ophiuchus
region including the bright orange star
Antares is visible just right of center,
and the nebula
Sharpless 1
(Sh2-1) appears on the far right.
Visible in front of the
Milk Way band are several famous nebulas including the
Eagle Nebula (M16), the
Trifid Nebula (M20), and the
Lagoon Nebula (M8).
Other notable nebulas include the
Pipe and
Blue Horsehead.
In general,
red emanates from nebulas glowing in the light of exited
hydrogen gas, while blue marks
interstellar dust preferentially
reflecting the light of bright young stars.
Thick dust appears otherwise dark brown.
Large balls of stars visible include the globular clusters
M4,
M9,
M19,
M28, and
M80,
each marked on the
annotated companion image.
This extremely wide field -- about 50 degrees across -- spans the constellations of
Sagittarius is on the lower left,
Serpens on the upper left,
Ophiuchus
across the middle, and
Scorpius on the right.
It took over 100 hours of sky imaging, combined with
meticulous planning and digital processing, to create this image.
APOD: 2018 April 23 - The Blue Horsehead Nebula in Infrared
Explanation:
The Blue Horsehead Nebula looks quite different in infrared light.
In visible light, the reflecting
dust of the nebula
appears blue and shaped like a horse's head.
In infrared light, however, a complex labyrinth of filaments, caverns, and cocoons of glowing dust and gas emerges, making it hard to even
identify the equine icon.
The featured image of the nebula was created in three infrared colors (R=22, G=12, B=4.6 microns)
from data taken by NASA's orbiting
Wide Field Infrared Survey Explorer (WISE) spacecraft.
The nebula is cataloged as
IC 4592
and spans about 40 light years, lying about 400 light years away toward the constellation
Scorpius
along the plane of our
Milky Way Galaxy.
IC 4592
is fainter but covers an angularly greater region than the better known
Horsehead Nebula of
Orion.
The star that predominantly illuminates and heats the dust is
Nu Scorpii, visible as the reddened star left of center.
APOD: 2018 March 29 - NGC 2023 in the Horsehead's Shadow
Explanation:
Carved by a bright
young star in
Orion's dusty molecular clouds, NGC 2023 is often
overlooked in favor of the nearby
dramatic silhouette of the Horsehead Nebula.
In
its own right
it is seen as a beautiful star forming emission
and reflection nebula though, a mere 1500 light-years distant.
Surprisingly colorful and complex filaments are detailed in
this rare NGC 2023 portrait.
Scattered points of emission are also from the region's
Herbig-Haro
objects,
associated with the energetic jets from newborn stars.
The sharp telescopic view spans about 10 light-years at the estimated
distance of NGC 2023.
Off the right edge of the frame lies the more familiar
cosmic Horsehead.
APOD: 2018 March 9 - Horsehead: A Wider View
Explanation:
Combined image data from the massive,
ground-based
VISTA telescope and the
Hubble Space
Telescope was used to create
this
wide perspective
of the interstellar landscape surrounding
the famous Horsehead Nebula.
Captured at near-infrared wavelengths, the region's dusty
molecular cloud sprawls across the scene that covers
an angle about
two-thirds the size of the Full Moon on the sky.
Left to right the frame spans just over 10 light-years
at the Horsehead's estimated distance of 1,600 light-years.
Also known as
Barnard 33,
the still
recognizable Horsehead Nebula
stands at the upper right,
the near-infrared glow of a dusty pillar topped with newborn stars.
Below and left, the bright reflection nebula NGC 2023 is itself
the illuminated environs of a hot young star.
Obscuring
clouds
below the base of the Horsehead and on the outskirts of
NGC 2023 show the tell-tale far red emission of energetic jets,
known as Herbig-Haro objects,
also associated with newborn stars.
APOD: 2017 December 27 - The Horsehead Nebula
Explanation:
One of the most identifiable nebulae in the sky,
the Horsehead Nebula in Orion, is part of a large, dark,
molecular cloud.
Also known as Barnard 33, the unusual shape was first
discovered on a
photographic plate in the late 1800s.
The red glow originates from
hydrogen
gas predominantly behind the nebula, ionized by the nearby bright star
Sigma Orionis.
The darkness of the
Horsehead is caused mostly by thick
dust,
although the lower part of the
Horsehead's neck casts a shadow to the left.
Streams of gas leaving
the nebula are funneled by a strong
magnetic field.
Bright spots in the
Horsehead Nebula's base are
young stars just in the process of forming.
Light takes about 1,500 years to reach us from the
Horsehead Nebula.
The featured image was taken with the large 3.6-m
Canada-France-Hawaii Telescope
in Hawaii,
USA.
APOD: 2017 November 29 - M42: The Great Orion Nebula
Explanation:
Few astronomical sights excite the imagination like the
nearby stellar nursery known as the Orion Nebula.
The Nebula's glowing gas
surrounds hot young stars at the edge of an immense interstellar
molecular cloud.
Many of the filamentary structures visible in the
featured image are actually
shock waves -
fronts where fast moving material encounters slow moving gas.
The Orion Nebula spans about 40
light years
and is located about 1500 light years away in the
same spiral arm
of our Galaxy as the
Sun.
The Great Nebula in
Orion can be found with the
unaided eye just below and to the left of the easily identifiable
belt of three stars in the popular
constellation Orion.
The featured image,
taken last month, shows a two-hour exposure of the nebula in three colors.
The whole Orion Nebula cloud complex,
which includes the
Horsehead Nebula,
will slowly disperse over the next 100,000 years.
APOD: 2017 November 23 - Alnitak, Alnilam, Mintaka
Explanation:
Alnitak,
Alnilam,
and
Mintaka,
are the bright bluish stars
from east to west (lower right to upper left) along the diagonal in this
cosmic vista.
Otherwise known as the
Belt of Orion,
these three blue supergiant stars are hotter and much more
massive than the Sun.
They lie from
800 to 1,500
light-years away, born of Orion's well-studied interstellar clouds.
In fact, clouds of gas and dust adrift in this region have
some surprisingly familiar shapes, including the dark
Horsehead Nebula
and Flame Nebula near
Alnitak at the lower right.
The famous Orion Nebula
itself is off the right edge of this colorful starfield.
This well-framed, 2-panel telescopic mosaic
spans about 4 degrees on the sky.
APOD: 2017 June 4 - Orion: Belt, Flame, and Horsehead
Explanation:
What surrounds the famous belt stars of Orion?
A deep exposure shows everything from dark nebula to star clusters,
all embedded in an extended
patch of
gaseous wisps in the greater
Orion
Molecular
Cloud
Complex.
The brightest three stars,
appearing diagonally on the left of the featured image are indeed the
famous three stars that make up the
belt of Orion.
Just below Alnitak, the lowest of the
three belt stars, is the
Flame Nebula, glowing with
excited hydrogen gas and immersed in filaments of dark brown dust.
Just to the right of
Alnitak lies the
Horsehead Nebula, a
dark indentation of
dense dust that has perhaps the most recognized nebular shapes on the sky.
The dark molecular cloud, roughly 1,500
light years distant, is cataloged as Barnard 33 and is seen primarily because it is backlit by the nearby massive star
Sigma Orionis.
The Horsehead Nebula will slowly shift its
apparent shape over the next few million years and will eventually be destroyed by the
high-energy starlight.
APOD: 2017 January 24 - M78 and Orion Dust Reflections
Explanation:
In the vast Orion Molecular Cloud complex,
several bright blue nebulas are particularly apparent.
Pictured here are two of the most prominent
reflection nebulas -
dust clouds lit by the
reflecting light of bright embedded
stars.
The more famous nebula is
M78,
in the image center, cataloged over 200 years ago.
To its left is the lesser known
NGC 2071.
Astronomers continue to
study these
reflection nebulas to
better understand how interior stars form.
The Orion complex
lies about 1500 light-years distant, contains the
Orion and
Horsehead nebulas,
and covers much of the
constellation of Orion.
APOD: 2016 December 25 - The Magnificent Horsehead Nebula
Explanation:
Sculpted by stellar winds and
radiation, a magnificent interstellar dust cloud by
chance has assumed this
recognizable shape.
Fittingly named the
Horsehead
Nebula, it is some 1,500 light-years
distant,
embedded in the vast Orion cloud complex.
About five light-years "tall", the dark cloud is cataloged as
Barnard 33
and is visible only because its
obscuring dust is silhouetted
against the glowing red emission nebula IC 434.
Stars are forming within the dark cloud.
Contrasting blue
reflection nebula NGC 2023, surrounding a hot, young
star, is at the lower left.
The gorgeous
color image
combines both
narrowband and
broadband images recorded using three different telescopes.
APOD: 2016 December 4 - Official Star Names for Orion
Explanation:
Familiar stars in Orion and constellations across the sky now have official names.
Over the past year, the
International Astronomical Union, the
only
body officially tasked with naming stars,
approved names already in common use for
227 of the brightest stars, including the most famous stars on the sky
Sirius,
Polaris, and
Betelgeuse.
Pictured, the
constellation of Orion is shown with several of these
now-official star names superposed.
Spanning about 30 degrees,
this breath-taking vista
stretches across the well-known constellation from
head to toe (left to right) and beyond.
The common names for all three stars in Orion's belt
are also now official.
At 1,500 light years away, the Great Orion
Nebula is the closest large star forming region, here visible
just right and below center.
Also visible are famous nebulae including the
Horsehead Nebula and the
Witch Head Nebula.
Of course, the Orion Nebula and bright stars are
easy to see with the
unaided eye, but dust clouds and emission from the extensive interstellar
gas in this nebula-rich complex,
are too faint and much harder to record.
In the
featured mosaic of broadband telescopic images, additional image
data acquired with a narrow
hydrogen alpha filter was used to
bring out the pervasive tendrils of energized
atomic hydrogen gas like in the arc of the giant
Barnard's Loop.
APOD: 2016 June 8 - The Horsehead Nebula in Infrared from Hubble
Explanation:
While drifting through the cosmos,
a magnificent interstellar dust cloud became sculpted by
stellar winds and radiation to assume a
recognizable shape.
Fittingly named the
Horsehead Nebula, it is embedded in the vast and complex Orion Nebula (M42).
A potentially rewarding but difficult object to
view personally
with a small telescope, the
above gorgeously detailed image was
taken in 2013 in
infrared light by the orbiting
Hubble Space Telescope
in honor of the 23rd anniversary of
Hubble's launch.
The dark molecular cloud, roughly 1,500
light years distant, is cataloged as Barnard 33 and is seen above primarily because it is backlit by the nearby massive star
Sigma Orionis.
The Horsehead Nebula will slowly shift its
apparent shape over the next few million years and will eventually be destroyed by the
high energy starlight.
APOD: 2016 May 10 - Saturn and Mars visit Milky Way Star Clouds
Explanation:
Planets, stars, nebulas and a galaxy -- this impressive image has them all.
Closest to home are the two planets
Mars (right) and
Saturn (center),
visible as the two bright orange spots in the upper half of the
featured image.
On the central right are the
colorful Rho Ophiuchus star clouds
featuring the bright orange star
Antares lined up below Mars.
These interstellar clouds contain both red
emission nebulas and blue
reflection nebulas.
At the top right of the image is the
Blue Horsehead reflection nebula.
On the lower left are many dark
absorption nebulas
that extend from the
central band of our
Milky Way Galaxy.
The featured deep composite was composed of
multiple deep exposures taken last month from
Brazil.
Although you
need a telescope to see the nebulosities, Saturn and Mars will
remain visible to the
unaided eye
this month toward the east, just after sunset.
APOD: 2016 April 13 - Orion in Red and Blue
Explanation:
When did Orion become so flashy?
This colorful rendition of part of the
constellation of Orion comes from red light emitted by
hydrogen and
sulfur
(SII), and blue-green light emitted by
oxygen
(OIII).
Hues on the
featured image
were then digitally reassigned to be indicative of their
elemental origins -- but also striking to the
human eye.
The breathtaking composite was
painstakingly composed from
hundreds of images which took nearly 200 hours to collect.
Pictured, Barnard's Loop, across the image bottom,
appears to cradle interstellar constructs including the intricate
Orion Nebula seen just right of center.
The Flame Nebula can also be quickly located,
but it takes a careful eye to identify the slight indentation of the dark
Horsehead Nebula.
As to Orion's flashiness -- a leading explanation for the origin of
Barnard's Loop is a
supernova blast that occurred about two million years ago.
APOD: 2016 March 28 - Orion's Belt and Sword over Teide's Peak
Explanation:
The southern part of Orion, the famous constellation and mythical hunter, appears quite picturesque posing here over a famous volcano.
Located in the
Canary Islands off the northwest coast of Africa,
the snow-peaked
Teide is one of the largest volcanoes on Earth.
Lights from a group planning to
summit Teide before dawn are visible below the
volcano's peak.
In this composite of exposures taken from the same location one night last month, the
three iconic
belt stars of
Orion are seen just above the peak, while the famous
Orion Nebula and the rest of
Orion's sword
are visible beyond the volcano's left slope.
Also visible in the long duration sky image are the
Horsehead Nebula,
seen as a dark indentation on the red
emission nebula
to the belt's left, and the Flame Nebula,
evident just above and to the right of the Horsehead.
APOD: 2015 December 16 - The Horsehead Nebula
Explanation:
The Horsehead
Nebula is one of the most famous nebulae on the sky.
It is visible as the dark indentation to the red
emission nebula
in the center of the above photograph.
The horse-head
feature is dark because it is really an opaque
dust cloud that lies in
front of the bright red
emission nebula.
Like clouds in
Earth's atmosphere, this cosmic cloud has assumed a
recognizable shape by chance.
After many thousands of years, the internal motions of the cloud
will surely alter its appearance.
The emission nebula's red color is caused by
electrons recombining with
protons to form
hydrogen atoms.
On the image left is the
Flame Nebula, an orange-tinged nebula that also contains filaments of dark dust.
Just to the lower left of the Horsehead nebula
featured picture is a blueish
reflection nebulae that
preferentially reflects
the blue light from
nearby stars.
APOD: 2015 November 23 - A 212 Hour Exposure of Orion
Explanation:
The constellation of Orion is much more than three stars in a row.
It is a direction in space that is
rich with impressive nebulas.
To better appreciate this well-known swath of sky, an
extremely long exposure was taken over many clear nights in 2013 and 2014.
After 212 hours of camera time and an
additional year of processing, the featured 1400-exposure collage spanning over 40 times the
angular diameter of
the Moon emerged.
Of the many interesting details that have become visible, one that particularly draws the eye is
Barnard's Loop, the bright red circular filament arcing down from the middle.
The Rosette Nebula is not the giant red nebula near the top of the image -- that is a larger but lesser known nebula known as Lambda Orionis.
The Rosette Nebula is visible, though: it is the red and white nebula on the upper left.
The bright orange star just above the frame center is
Betelgeuse, while the bright blue star on the lower right is
Rigel.
Other famous nebulas visible include
the Witch Head Nebula,
the Flame Nebula,
the Fox Fur Nebula, and, if you know just where to look,
the comparatively small Horsehead Nebula.
About those
famous three stars that cross the belt of
Orion the Hunter --
in this busy frame they can be hard to locate, but a
discerning eye will find them just below and to the right of the image center.
APOD: 2015 May 13 - The Magnificent Horsehead Nebula
Explanation:
Sculpted by stellar winds and
radiation, a magnificent
interstellar dust cloud by
chance has assumed this recognizable shape.
Fittingly named the
Horsehead
Nebula, it is some 1,500 light-years distant,
embedded in the vast Orion cloud complex.
About five light-years "tall", the
dark cloud is cataloged as
Barnard 33
and is visible only because its
obscuring dust is silhouetted
against the glowing red
emission nebula IC 434.
Stars are forming within the dark cloud.
Contrasting blue
reflection nebula
NGC 2023, surrounding a hot, young star,
is at the lower left.
The gorgeous
featured image
combines both narrowband and broadband images.
APOD: 2015 March 16 - The Clouds of Orion the Hunter
Explanation:
Cradled in cosmic dust and glowing hydrogen,
stellar
nurseries in Orion the
Hunter
lie at
the edge of giant molecular clouds some 1,500 light-years away.
Spanning about 30 degrees,
this breath-taking vista
stretches across the well-known constellation from
head to toe (left to right) and beyond.
At 1,500 light years away, the Great Orion
Nebula is the closest large star forming region, here visible
just right and below center.
To its left are the
Horsehead Nebula,
M78, and
Orion's belt stars.
Sliding your cursor over the picture will also find
red giant Betelgeuse at the hunter's shoulder,
bright blue Rigel at his foot,
the Witch Head Nebula above -- and illuminated by -- Rigel,
and the glowing Lambda Orionis
(Meissa) nebula on the left, near Orion's head.
Of course, the Orion Nebula and bright stars are
easy to see with the
unaided eye, but dust clouds and emission from the extensive interstellar
gas in this nebula-rich complex,
are too faint and much harder to record.
In this mosaic of broadband telescopic images, additional image
data acquired with a narrow
hydrogen alpha filter was used to
bring out the pervasive tendrils of energized
atomic hydrogen gas like in the arc of the giant
Barnard's Loop.
APOD: 2015 January 19 - Infrared Orion from WISE
Explanation:
The Great Nebula in Orion is an intriguing place.
Visible to the unaided eye, it appears as a small
fuzzy patch in the
constellation of Orion.
But
this image,
an illusory-color four-panel mosaic taken in different bands of
infrared light with the
Earth orbiting
WISE observatory, shows the
Orion Nebula
to be a bustling
neighborhood of recently formed stars,
hot gas, and dark dust.
The power behind much of the
Orion Nebula (M42) is the stars of the
Trapezium star cluster, seen
near the center of the
above wide field image.
The orange glow surrounding the
bright stars pictured here is their own
starlight reflected
by intricate dust filaments that
cover much of the region.
The current
Orion Nebula cloud complex, which
includes the
Horsehead Nebula,
will slowly disperse over the next 100,000 years.
APOD: 2014 December 9 - The Flame Nebula in Visible and Infrared
Explanation:
What lights up the Flame Nebula?
Fifteen hundred
light years away towards the constellation of Orion lies a nebula which, from its glow and dark
dust lanes,
appears, on the left, like a billowing fire.
But
fire,
the rapid acquisition of
oxygen,
is not what makes this
Flame glow.
Rather the bright star Alnitak, the easternmost star in the
Belt of Orion
visible just to the right of the nebula, shines energetic light into the
Flame that knocks electrons away from the
great clouds of hydrogen
gas that reside there.
Much of the glow results when the electrons and
ionized hydrogen recombine. The above false-color picture
of the Flame Nebula (NGC 2024)
was taken is a composite of both visible and
infrared
light, the later energy band being
where a young star cluster
becomes visible.
The Flame Nebula is part of the
Orion Molecular Cloud Complex,
a star-forming region that includes the famous
Horsehead Nebula.
APOD: 2014 November 11 - Orion in Gas, Dust, and Stars
Explanation:
The constellation of Orion holds much more than three stars in a row.
A deep exposure shows everything from dark nebulae to star clusters,
all embedded in an extended
patch of
gaseous wisps in the greater
Orion
Molecular
Cloud
Complex.
The brightest three stars
on the far left are indeed the
famous three stars that make up the
belt of Orion.
Just below Alnitak, the lowest of the
three belt stars, is the
Flame Nebula, glowing with
excited hydrogen gas and immersed in filaments of dark brown dust.
Below and left of the frame center and just to the right of
Alnitak lies the
Horsehead Nebula, a
dark indentation of
dense dust that has perhaps the most recognized nebular shapes on the sky.
On the upper right lies
M42, the
Orion Nebula,
an energetic caldron of tumultuous gas,
visible to the unaided eye,
that is giving birth to a
new open cluster of stars.
Immediately to the left of
M42
is a prominent bluish reflection nebula sometimes called the
Running Man that houses many bright
blue stars.
The featured image covers an area with objects that are roughly 1,500
light years away and spans about 75 light years.
APOD: 2014 July 28 - The Horsehead Nebula from Blue to Infrared
Explanation:
One of the most identifiable nebulae in the sky,
the Horsehead Nebula in Orion, is part of a large, dark,
molecular cloud.
Also known as Barnard 33, the unusual shape was first
discovered on a
photographic plate in the late 1800s.
The red glow originates from
hydrogen
gas predominantly behind the nebula, ionized by the nearby bright star
Sigma Orionis.
The darkness of the
Horsehead is caused mostly by thick
dust,
although the lower part of the
Horsehead's neck casts a shadow to the left.
Streams of gas leaving
the nebula are funneled by a strong
magnetic field.
Bright spots in the
Horsehead Nebula's base are
young stars just in the process of forming.
Light takes about 1,500 years to reach us from the
Horsehead Nebula.
The above image is a digital combination of images taken in blue, green, red, and
hydrogen-alpha light from the
Argentina, and an
image taken in
infrared light by the orbiting
Hubble Space Telescope.
APOD: 2014 July 27 - Rho Ophiuchi Wide Field
Explanation:
The clouds surrounding the star system Rho Ophiuchi compose one of the closest star forming regions.
Rho Ophiuchi itself is a
binary star system visible in the
light-colored region on the image right.
The star system, located only 400
light years away, is distinguished by its
colorful surroundings,
which include a red
emission nebula and numerous
light and dark brown dust lanes.
Near the upper right of the Rho Ophiuchi
molecular cloud system is the yellow star
Antares, while a distant but coincidently-superposed
globular cluster of stars,
M4, is visible between Antares and the red
emission nebula.
Near the image bottom lies IC 4592, the
Blue Horsehead nebula.
The blue glow that surrounds the Blue Horsehead's eye -- and other stars around the image -- is a reflection nebula composed of fine dust.
On the
above image left is a geometrically angled reflection nebula
cataloged as
Sharpless 1.
Here, the bright star near the dust vortex creates the light of surrounding
reflection nebula.
Although most of
these features are visible through a small telescope pointed toward the constellations of
Ophiuchus,
Scorpius, and
Sagittarius, the only way to see the intricate details of the dust swirls, as featured above, is to use a
long exposure camera.
APOD: 2014 March 26 - M78 and Reflecting Dust Clouds
Explanation:
An eerie blue glow and ominous columns of
dark dust highlight M78 and other bright
reflection nebula
in the constellation of Orion.
The dark filamentary
dust not only absorbs light, but also reflects the
light of several bright blue stars that
formed recently in the nebula.
Of the two reflection nebulas
pictured above, the more famous nebula is
M78, in the image center, while
NGC 2071 can be seen to its lower left.
The same type of scattering that colors the
daytime sky further enhances the blue color.
M78 is about five
light-years across and visible through a small telescope.
M78 appears above only as it was
1600 years ago,
however, because that is how long it takes light to go from
there to here.
M78
belongs to the larger
Orion
Molecular
Cloud
Complex
that contains the
Great Nebula in Orion and the
Horsehead Nebula.
APOD: 2013 December 31 - The Horsehead Nebula
Explanation:
The Horsehead
Nebula is one of the most famous nebulae on the
sky.
It is visible as the dark indentation to the red
emission nebula
in the center of the above photograph.
The horse-head
feature is dark because it is really an opaque
dust cloud that lies in
front of the bright red
emission nebula.
Like clouds in
Earth's atmosphere, this cosmic cloud has
assumed a
recognizable shape by chance.
After many thousands of years, the internal motions of the cloud
will alter its appearance.
The emission nebula's red color is caused by
electrons recombining with
protons to form
hydrogen atoms.
Also visible at the bottom left of the picture is a greenish
reflection nebulae that
preferentially reflects
the blue light from
nearby stars.
APOD: 2013 December 12 - Alnitak, Alnilam, Mintaka
Explanation:
Alnitak,
Alnilam,
and
Mintaka,
are the bright bluish stars
from east to west (lower right to upper left) along the diagonal in
this gorgeous cosmic vista.
Otherwise known as the
Belt of Orion, these
three blue supergiant stars are hotter and much more
massive than the Sun.
They lie about 1,500 light-years away, born
of Orion's well-studied interstellar clouds.
In fact, clouds of gas and dust adrift in this region have
intriguing and some surprisingly familiar shapes, including the
dark Horsehead Nebula
and Flame Nebula near
Alnitak at the lower right.
The famous Orion Nebula
itself is off the right edge of this colorful star field.
The well-framed, wide-field telescopic image
spans about 4 degrees on the sky.
APOD: 2013 October 29 - Horsehead and Orion Nebulas
Explanation:
The dark Horsehead Nebula and the glowing
Orion Nebula are contrasting cosmic vistas.
Adrift 1,500 light-years away in one of
the night sky's
most recognizable
constellations,
they appear in opposite corners of the above
stunning mosaic.
The familiar Horsehead
nebula appears as a dark cloud, a small silhouette
notched against the long red glow at the lower left.
Alnitak is the easternmost star in
Orion's belt and is seen as the
brightest star to the left of the
Horsehead.
Below Alnitak is the
Flame Nebula, with clouds of
bright emission and
dramatic dark dust lanes.
The magnificent emission region, the
Orion Nebula (aka M42), lies at the upper right.
Immediately to its left is a prominent
reflection nebula sometimes called the Running Man.
Pervasive tendrils
of glowing hydrogen gas are easily
traced
throughout the region.
APOD: 2013 June 4 - Orion Nebula in Oxygen, Hydrogen, and Sulfur
Explanation:
Few astronomical sights excite the imagination like the
nearby stellar nursery known as the Orion Nebula.
The Nebula's glowing gas
surrounds hot young stars at the edge of an immense interstellar
molecular cloud.
Many of the filamentary structures visible in the
above image are actually
shock waves -
fronts where fast moving material encounters slow moving gas.
The Orion Nebula spans about 40
light years
and is located about 1500 light years away in the
same spiral arm
of our Galaxy as the Sun.
The Great Nebula in
Orion can be found with the
unaided eye just below and to the left of the easily identifiable
belt of three stars in the popular constellation Orion.
The above image shows the nebula in three colors specifically emitted by
hydrogen,
oxygen, and
sulfur gas.
The whole Orion Nebula cloud complex,
which includes the
Horsehead Nebula,
will slowly disperse over the next 100,000 years.
APOD: 2013 May 3 - Horsehead: A Wider View
Explanation:
Combined image data from the massive,
ground-based
VISTA telescope and the
Hubble Space
Telescope was used to create
this
wide perspective
of the interstellar landscape surrounding
the famous Horsehead Nebula.
Captured at near-infrared wavelengths, the region's dusty
molecular cloud sprawls across the scene that covers
an angle about
two-thirds the size of the Full Moon on the sky.
Left to right the frame spans just over 10 light-years
at the Horsehead's estimated distance of 1,600 light-years.
Also known as
Barnard 33,
the still
recognizable Horsehead Nebula
stands at the upper right,
the near-infrared glow of a dusty pillar topped with newborn stars.
Below and left, the bright reflection nebula NGC 2023 is itself
the illuminated environs of a hot young star.
Obscuring clouds
below the base of the Horsehead and on the outskirts of
NGC 2023 show the tell-tale far red emission of energetic jets,
known as Herbig-Haro objects,
also associated with newborn stars.
APOD: 2013 April 22 - The Horsehead Nebula in Infrared from Hubble
Explanation:
While drifting through the cosmos,
a magnificent interstellar dust cloud became sculpted by
stellar winds and radiation to assume a
recognizable shape.
Fittingly named the
Horsehead Nebula, it is embedded in the vast and complex Orion Nebula (M42).
A potentially rewarding but difficult object to
view personally
with a small telescope, the
above gorgeously detailed image was
recently taken in
infrared light by the orbiting
Hubble Space Telescope
in honor of the 23rd anniversary of
Hubble's launch.
The dark molecular cloud, roughly 1,500
light years distant, is cataloged as Barnard 33 and is seen above primarily because it is backlit by the nearby massive star
Sigma Orionis.
The Horsehead Nebula will slowly shift its
apparent shape over the next few million years and will eventually be destroyed by the
high energy starlight.
APOD: 2013 April 2 - IC 4592: The Blue Horsehead Reflection Nebula
Explanation:
Do you see the horse's head?
What you are seeing is not the famous
Horsehead nebula toward
Orion but
rather a fainter nebula that only takes on a familiar form with deeper imaging.
The main part of the
above imaged
molecular cloud complex is a
reflection nebula
cataloged as
IC 4592.
Reflection nebulas are actually made up of very fine
dust that normally appears dark but can
look quite blue when reflecting the light of energetic nearby stars.
In this case, the source of much of the reflected light is a star
at the eye of the
horse.
That star is part of
Nu Scorpii,
one of the brighter star systems toward the constellation of the Scorpion
Scorpius.
A second
reflection nebula dubbed
IC 4601 is visible surrounding two stars on the upper right of the image center.
APOD: 2013 February 13 - Infrared Orion from WISE
Explanation:
The Great Nebula in Orion is a intriguing place.
Visible to the unaided eye, it appears as a small
fuzzy patch in the
constellation of Orion.
But
this image, an illusory-color composite of four colors of
infrared light taken with the
Earth orbiting
WISE observatory, shows the
Orion Nebula
to be a bustling neighborhood or recently formed stars,
hot gas, and dark dust.
The power behind much of the
Orion Nebula (M42) is the stars of the
Trapezium star cluster, seen
near the center of the
above wide field image.
The eerie green glow surrounding the
bright stars pictured here is their own
starlight reflected
by intricate dust filaments that
cover much of the region.
The current
Orion Nebula cloud complex, which
includes the
Horsehead Nebula,
will slowly disperse over the next 100,000 years.
APOD: 2012 October 21 - The Horsehead Nebula
Explanation:
One of the most identifiable nebulae in the sky,
the Horsehead Nebula in Orion, is part of a large, dark,
molecular cloud.
Also known as Barnard 33, the unusual shape was first
discovered on a
photographic plate in the late 1800s.
The red glow originates from
hydrogen
gas predominantly behind the nebula, ionized by the nearby bright star
Sigma Orionis.
The darkness of the
Horsehead is caused mostly by thick
dust,
although the lower part of the
Horsehead's neck casts a shadow to the left.
Streams of gas leaving
the nebula are funneled by a strong
magnetic field.
Bright spots in the
Horsehead Nebula's base are
young stars just in the process of forming.
Light takes about 1,500 years to reach us from the
Horsehead Nebula.
The
above image was taken with the
0.9-meter telescope at
Kitt Peak National Observatory.
APOD: 2012 September 9 - Wisps Surrounding the Horsehead Nebula
Explanation:
The famous Horsehead Nebula in Orion is not alone.
A deep exposure shows that the
dark familiar shaped indentation,
visible just below center, is part of a
vast complex of absorbing
dust and
glowing gas.
To bring out details of the
Horsehead's pasture, amateur astronomers at the
Star Shadow Remote Observatory in
New Mexico,
USA
fixed a
small telescope on the
region for over seven hours filtering out all but a
very specific color of
red light emitted by
hydrogen.
They then added the image to a full color frame taken over three hours.
The resulting
spectacular picture details an intricate tapestry of gaseous wisps and dust-laden
filaments that were created and
sculpted over eons by
stellar winds and
ancient supernovas.
The Horsehead Nebula lies 1,500
light years distant towards the constellation of
Orion.
Two stars from the Orion's Belt
can be found in the
above image.
APOD: 2012 February 12 - Orion in Gas, Dust, and Stars
Explanation:
The constellation of Orion holds much more than three stars in a row.
A deep exposure shows everything from dark nebula to star clusters,
all embedded in an extended
patch of
gaseous wisps in the greater
Orion
Molecular
Cloud
Complex.
The brightest three stars
on the far left are indeed the
famous three stars that make up the
belt of Orion.
Just below Alnitak, the lowest of the
three belt stars, is the
Flame Nebula, glowing with
excited hydrogen gas and immersed in filaments of dark brown dust.
Below the frame center and just to the right of
Alnitak lies the
Horsehead Nebula, a
dark indentation of
dense dust that has perhaps the most recognized nebular shapes on the sky.
On the upper right lies
M42, the
Orion Nebula,
an energetic caldron of tumultuous gas,
visible to the unaided eye,
that is giving birth to a
new open cluster of stars.
Immediately to the left of
M42
is a prominent bluish reflection nebula sometimes called the
Running Man that houses many bright
blue stars.
The above image, a digitally stitched composite taken over several nights, covers an area with objects that are roughly 1,500
light years away and spans about 75 light years.
APOD: 2011 January 21 - Alnitak, Alnilam, Mintaka
Explanation:
Alnitak,
Alnilam,
and
Mintaka,
are the bright bluish stars
from east to west (left to right) along the diagonal in
this gorgeous cosmic vista.
Otherwise known as the
Belt of Orion, these
three blue supergiant stars are hotter and much more
massive than the Sun.
They lie about 1,500 light-years away, born
of Orion's well-studied interstellar clouds.
In fact, clouds of gas and dust adrift in this region have
intriguing and some surprisingly familiar shapes, including the
dark Horsehead Nebula
and Flame Nebula near
Alnitak at the lower left.
The famous Orion Nebula
itself lies off the bottom of this colorful star field.
Recorded last December with a modified digital SLR camera and small
telescope, the well-planned,
two frame mosaic
spans about 4 degrees on the sky.
APOD: 2010 October 23 - Orion: Head to Toe
Explanation:
Cradled in cosmic dust and glowing hydrogen,
stellar
nurseries in Orion the
Hunter
lie at
the edge of a giant molecular cloud some 1,500 light-years away.
Spanning nearly 25 degrees, this breath-taking vista
stretches across the well-known constellation
from head to toe
(left to right).
The Great Orion
Nebula, the closest large star forming region, is right of center.
To its left are the
Horsehead Nebula,
M78, and
Orion's belt stars.
Sliding your cursor over the picture will also find
red giant Betelgeuse at the hunter's shoulder,
bright blue Rigel
at his foot, and the glowing Lambda Orionis
(Meissa) nebula at the far left, near Orion's head.
Of course, the Orion Nebula and bright stars are
easy to see with the
unaided eye, but dust clouds and emission from the extensive interstellar
gas in this nebula-rich complex,
are too faint and much harder to record.
In this mosaic of broadband telescopic images, additional image
data acquired with a narrow
hydrogen alpha filter was used to
bring out the pervasive tendrils of energized
atomic hydrogen gas and the arc of the giant
Barnard's Loop.
APOD: 2010 October 5 - Horsehead and Orion Nebulas
Explanation:
The dark Horsehead Nebula and the glowing
Orion Nebula are contrasting cosmic vistas.
Adrift 1,500 light-years away in one of
the night sky's
most recognizable
constellations,
they appear in opposite corners of the above
stunning mosaic.
The familiar Horsehead
nebula appears as a dark cloud, a small silhouette
notched against the long red glow at the lower left.
Alnitak is the easternmost star in
Orion's belt and is seen as the
brightest star to the left of the
Horsehead.
Below Alnitak is the
Flame Nebula, with clouds of
bright emission and
dramatic dark dust lanes.
The magnificent emission region, the
Orion Nebula (aka M42), lies at the upper right.
Immediately to its left is a prominent bluish
reflection nebula sometimes called the Running Man.
Pervasive tendrils
of glowing hydrogen gas are easily
traced
throughout the region.
APOD: 2010 July 19 - Dark River Wide Field
Explanation:
A Dark River of dust seems to run from our Galactic Center,
then pool into a
starfield containing photogenic sky wonders.
Scrolling right will reveal many of these objects including (can you find?) the bright orange star
Antares, a
blue(-eyed) horsehead nebula, the white
globular star cluster M4,
the bright blue star system Rho Ophiuchi,
the dark brown Pipe nebula,
the red Lagoon nebula,
the red and blue Trifid nebula,
the red Cat's Paw Nebula,
and the multicolored but still important
center of our Galaxy.
This wide view
captures in exquisite detail about 50 degrees of the
nighttime sky,
100 times the size of the full Moon, covering constellations from
the Archer
(Sagittarius) through
the Snake Holder
(Ophiuchus), to
the Scorpion
(Scorpius).
The Dark River itself can be identified as the brown dust lane connected to
Antares,
and spans about 100 light years.
Since the Dark River
dust lane lies only about 500 light years away, it only appears as a bridge to the much more distant Galactic Center, that actually lies about 25,000 light years farther away.
APOD: 2010 May 24 - Rho Ophiuchi Wide Field
Explanation:
The clouds surrounding the star system Rho Ophiuchi compose one of the closest star forming regions.
Rho Ophiuchi itself is a
binary star system visible in the
light-colored region on the image right.
The star system, located only 400
light years away, is distinguished by its
colorful surroundings,
which include a red
emission nebula and numerous
light and dark brown dust lanes.
Near the upper right of the Rho Ophiuchi
molecular cloud system is the yellow star
Antares, while a distant but coincidently-superposed
globular cluster of stars,
M4, is visible between Antares and the red
emission nebula.
Near the image bottom lies IC 4592, the
Blue Horsehead nebula.
The blue glow that surrounds the Blue Horsehead's eye -- and other stars around the image -- is a reflection nebula composed of fine dust.
On the
above image left is a geometrically angled reflection nebula
cataloged as
Sharpless 1.
Here, the bright star near the dust vortex creates the light of surrounding
reflection nebula.
Although most of
these features are visible through a small telescope pointed toward the constellations of
Ophiuchus,
Scorpius, and
Sagittarius, the only way to see the intricate details of the dust swirls, as featured above, is to use a
long exposure camera.
APOD: 2010 May 13 - The Magnificent Horsehead Nebula
Explanation:
Sculpted by stellar winds and
radiation, a magnificent interstellar dust cloud by
chance has assumed this recognizable shape.
Fittingly named the
Horsehead
Nebula, it is some 1,500 light-years distant,
embedded in the vast
Orion cloud
complex.
About five light-years "tall", the dark cloud is cataloged as
Barnard 33
and is visible only because its
obscuring dust is silhouetted
against the glowing red emission nebula IC 434.
Stars are forming within the dark cloud.
Contrasting blue
reflection nebula NGC 2023, surrounding a hot, young star,
is at the lower left.
The gorgeous
color image
combines both narrowband and broadband
images recorded using three different telescopes.
APOD: 2010 March 2 - M78 and Reflecting Dust Clouds in Orion
Explanation:
An eerie blue glow and ominous columns of
dark dust highlight M78 and other bright
reflection nebula
in the constellation of Orion.
The dark filamentary
dust not only absorbs light, but also reflects the
light of several bright blue stars that
formed recently in the nebula.
Of the two reflection nebulas
pictured above, the more famous nebula is
M78, in the image center, while
NGC 2071 can be seen to its lower left.
The same type of scattering that colors the
daytime sky further enhances the blue color.
M78
is about five
light-years across and visible through a small telescope.
M78 appears above only as it was
1600 years ago,
however, because that is how long it takes light to go from
there to here.
M78
belongs to the larger
Orion
Molecular
Cloud
Complex
that contains the
Great Nebula in Orion and the
Horsehead Nebula.
APOD: 2010 January 12 - The Flame Nebula in Infrared
Explanation:
What lights up the Flame Nebula? Fifteen hundred
light years away towards the constellation of Orion lies a nebula which, from its glow and dark
dust lanes,
appears, on the left, like a billowing fire.
But
fire,
the rapid acquisition of
oxygen,
is not what makes this
Flame glow.
Rather the bright star Alnitak, the easternmost star in the
Belt of Orion
visible just above the nebula, shines energetic light into the
Flame that knocks electrons away from the
great clouds of hydrogen
gas that reside there.
Much of the glow results when the electrons and
ionized hydrogen recombine. The above false-color picture of the Flame Nebula (NGC 2024)
was taken in
infrared
light, where a young star cluster
becomes visible.
The Flame Nebula is part of the
Orion Molecular Cloud Complex,
a star-forming region that includes the famous
Horsehead Nebula,
visible above on the far right.
APOD: 2009 September 29 - Orion in Gas, Dust, and Stars
Explanation:
The constellation of Orion holds much more than three stars in a row.
A deep exposure shows everything from dark nebula to star clusters,
all imbedded in an extended
patch of
gaseous wisps in the greater
Orion
Molecular
Cloud
Complex.
The brightest three stars
on the far left are indeed the
famous three stars that make up the
belt of Orion.
Just below Alnitak, the lowest of the
three belt stars, is the
Flame Nebula, glowing with
excited hydrogen gas and immersed in filaments of dark brown dust.
Below the frame center and just to the right of
Alnitak lies the
Horsehead Nebula, a
dark indentation of
dense dust that has perhaps the most recognized nebular shapes on the sky.
On the upper right lies
M42, the
Orion Nebula,
an energetic caldron of tumultuous gas,
visible to the unaided eye,
that is giving birth to a
new open cluster of stars.
Immediately to the left of
M42
is a prominent bluish reflection nebula sometimes called the
Running Man that houses many bright blue stars.
The
above image, a digitally stitched composite taken over several nights, covers an area with objects that are roughly 1,500
light years away and spans about 75 light years.
APOD: 2009 July 21 - The Horsehead Nebula
Explanation:
One of the most identifiable nebulae in the sky,
the Horsehead Nebula in Orion, is part of a large, dark,
molecular cloud.
Also known as Barnard 33, the unusual shape was first
discovered on a
photographic plate in the late 1800s.
The red glow originates from
hydrogen
gas predominantly behind the nebula, ionized by the nearby bright star
Sigma Orionis.
The darkness of the
Horsehead is caused mostly by thick
dust,
although the lower part of the
Horsehead's neck casts a shadow to the left.
Streams of gas leaving the nebula are funneled by a strong
magnetic field.
Bright spots in the
Horsehead Nebula's base are
young stars just in the process of forming.
Light takes about 1,500 years to reach us from the
Horsehead Nebula.
The
above image was taken with the
0.9-meter telescope at
Kitt Peak National Observatory.
APOD: 2009 May 21 - IC 4592: A Blue Horsehead
Explanation:
This complex of beautiful, dusty reflection nebulae lies
in the constellation
Scorpius
along the plane of our Milky Way Galaxy.
Its overall outline suggests a horsehead in profile,
though it covers a much larger region than the better known
Horsehead Nebula of Orion.
The
star near the eye of the horse and the center of the 5 degree wide
field, is embedded in
blue reflection nebula IC 4592
over 400 light-years away.
At that distance, the view spans nearly 40 light-years.
The horse's gaze seems fixed on Beta Scorpii, also
named
Graffias, the bright star at the lower left.
Toward the top right, near the horse's ear, is another striking bluish
reflection nebula, IC 4601.
The characteristic blue hue of reflection nebulae is caused
by the tendency of interstellar dust to more strongly
scatter blue starlight.
APOD: 2009 March 10 - Horsehead and Orion Nebulae
Explanation:
Adrift 1,500 light-years away in one of
the night sky's
most recognizable
constellations, the glowing
Orion Nebula and the dark
Horsehead Nebula are contrasting
cosmic vistas.
They appear in opposite corners of this
stunning mosaic taken with a digital camera attached to a small telescope.
The magnificent emission region, the
Orion Nebula (aka M42), lies at the upper right of the picture.
Immediately to its left is a prominent bluish
reflection nebula sometimes called
the Running Man.
The Horsehead
nebula appears as a dark cloud, a small silhouette
notched against the long red glow at the lower left.
Alnitak is the easternmost star in
Orion's belt and is seen as the
brightest star to the left of the
Horsehead.
Below Alnitak is the
Flame Nebula, with clouds of
bright emission and dramatic dark dust lanes.
Pervasive tendrils
of glowing hydrogen gas are easily
traced
throughout the region in
this deep field image of the same region.
APOD: 2009 February 24 - Barnard's Loop around the Horsehead Nebula
Explanation:
Why is the
Horsehead Nebula surrounded by a bubble?
Although hard to make out, the famous
Horsehead Nebula is the slight
dark indentation in the bright streak
just to the left of the image center.
Glowing like an
emission nebula, the origin of the
bubble, known as
Barnard's Loop, is currently unknown.
Progenitor hypotheses include the
winds
from bright Orion stars and the
supernovas
of stars long gone.
Barnard's Loop is too faint to be
identified with the unaided eye.
The nebula
was discovered only in 1895 by
E. E. Barnard on long duration film exposures.
The above image was taken in a single
specific color
emitted by
hydrogen to
bring out detail.
To the left of the
Horsehead Nebula,
visible as a small dark indentation, is the photogenic
Flame Nebula.
APOD: 2009 February 11 - Orion s Belt Continued
Explanation:
Yesterday's skyscape featured
Alnitak, Alnilam, and Mintaka,
the stars of
Orion's Belt.
Today's also presents the easternmost belt star, Alnitak, at the
bottom right of the field, surrounded by the well-known
Horsehead
and Flame nebulae.
But this view sweeps
farther to the east (left) and north (top)
detailing subtler cosmic clouds of gas and dust scattered through
the fertile, nebula rich region.
The scene is anchored at the top left by the eerie
blue glow
and ominous dark dust lanes of
reflection
nebula M78.
Like the Horsehead, the Flame, and the
Orion Nebula itself,
M78 is a readily visible part of the large
Orion
Molecular Cloud complex some 1,500 light-years distant.
APOD: 2009 February 10 - Orion s Belt
Explanation:
Alnitak,
Alnilam,
and
Mintaka,
are the bright bluish stars
from east to west (left to right) along the diagonal in
this gorgeous cosmic vista.
Otherwise known as the
Belt of Orion, these
three blue supergiant stars are hotter and much more
massive than the Sun.
They lie about 1,500 light-years away, born
of Orion's
well-studied interstellar clouds.
In fact, clouds of gas and dust adrift in
this region have
intriguing and some surprisingly familiar shapes, including the
dark Horsehead
Nebula and Flame Nebula near
Alnitak at the lower
left.
The famous Orion Nebula
itself lies off the bottom of this
star field
that covers about 4.5x3.5 degrees on the sky.
This
image was taken last month with a digital camera attached to a small
telescope in
Switzerland,
and better matches
human color
perception
than a more detailed composite taken over 15
years ago.
APOD: 2008 November 26 - The Horsehead Nebula in Orion
Explanation:
One of the most identifiable nebulae in the sky,
the Horsehead Nebula in Orion, is part of a large, dark,
molecular cloud.
Also known as Barnard 33, the unusual shape was first
discovered on a
photographic plate in the late 1800s.
The red glow originates from
hydrogen
gas predominantly behind the nebula, ionized by the nearby bright star
Sigma Orionis.
A blue
reflection nebula dubbed
NGC 2023 surrounds the bright star at the lower left.
The darkness of the
Horsehead is caused mostly by thick
dust,
although the lower part of the
Horsehead's neck casts a shadow to the left.
Streams of gas leaving the nebula are funneled by a strong
magnetic field.
Bright spots in the
Horsehead Nebula's base are
young stars just in the process of forming.
Light takes about 1500 years to reach us from the
Horsehead Nebula.
The above image
was taken earlier this month with a 0.6-meter telescope at the
Mt. Lemmon SkyCenter in
Arizona,
USA.
APOD: 2008 April 8 - Southern Orion: From Belt to Witch
Explanation:
Do you recognize the belt of Orion in this image?
The familiar trio of stars,
visible to the unaided eye,
can be found across the upper left.
Otherwise, the southern part of the constellation Orion has taken
on a new look in
this unusually deep and wide view
First note that the lower left belt star,
Alnitak,
is the easternmost star in Orion's belt.
Left of Alnitak is the Flame Nebula,
with clouds of bright emission and dramatic dark dust lanes.
Directly below
Alnitak,
a close inspection will reveal the
Horsehead Nebula.
Farther right and below is the Orion Nebula,
M42,
itself visible to the unaided eye.
The brightest star in the frame, near the bottom right, is
Rigel.
A bright blue star, Rigel illuminates the ominously shaped dust patch known as the
Witch Head Nebula, visible as the
blue reflection nebula near the
lower right corner.
Finally, appearing as a vast red ring and encompassing the entire region, is
Barnard's Loop.
Humans
could see this entire menagerie, unaided, were their eyes
about 10,000 times more sensitive.
APOD: 2008 April 6 - Wisps Surrounding the Horsehead Nebula
Explanation:
The famous Horsehead Nebula in Orion is not alone.
A deep exposure shows that the
dark familiar shaped indentation,
visible just below center, is part of a
vast complex of absorbing
dust and
glowing gas.
To bring out details of the
Horsehead's pasture, amateur astronomers at the
Star Shadow Remote Observatory in
New Mexico,
USA
fixed a
small telescope on the region for over seven hours filtering out all but a
very specific color of
red light emitted by
hydrogen.
They then added the image to a full color frame taken over three hours.
The resulting
spectacular picture details an intricate tapestry of gaseous wisps and dust-laden filaments that were created and sculpted over eons by
stellar winds and
ancient supernovas.
The Horsehead Nebula lies 1,500
light years
distant towards the
constellation of
Orion.
Two stars from the Orion's Belt
can be found in the
above image.
APOD: 2008 March 18 - M78 and Reflecting Dust Clouds in Orion
Explanation:
An eerie blue glow and ominous columns of dark dust highlight M78 and other bright
reflection nebula
in the constellation of Orion.
The dark filamentary
dust not only absorbs light, but also reflects the
light of several bright blue stars that
formed recently in the nebula.
Of the two reflection nebulas pictured above, the more famous nebula is M78, on the upper right, while NGC 2071 can be seen to its lower left.
The same type of scattering that colors the
daytime sky further enhances the blue color.
M78
is about five
light-years across and visible through a small telescope.
M78 appears
above only as it was 1600 years ago, however, because that is how long it takes light to go from
there to here.
M78
belongs to the larger
Orion Molecular Cloud Complex
that contains the
Great Nebula in Orion and the
Horsehead Nebula.
APOD: 2008 February 21 - Orion's Horsehead Nebula
Explanation:
The Horsehead
Nebula is one of the most famous nebulae on the sky.
It is visible as the dark indentation to the red
emission nebula seen just below
and left of center in the
this photograph.
The brightest star on the left is located in the belt of the familiar
constellation Orion.
The horse-head
feature is dark because it is really an opaque
dust cloud that lies in
front of the bright red
emission nebula.
Like clouds in
Earth's atmosphere, this cosmic cloud has
assumed a
recognizable
shape by chance.
After many thousands of years, the internal motions of the cloud
will alter its appearance.
The emission nebula's red color is caused by
electrons recombining
with
protons
to form
hydrogen atoms.
Also visible in the picture are blue
reflection nebulae that
preferentially reflect the blue light from
nearby stars.
APOD: 2007 May 27 - The Horsehead Nebula
Explanation:
One of the most identifiable nebulae in the sky,
the Horsehead Nebula in Orion, is part of a large, dark,
molecular cloud.
Also known as Barnard 33, the unusual shape was first
discovered on a
photographic plate in the late 1800s.
The red glow originates from
hydrogen
gas predominantly behind the nebula, ionized by the nearby bright star
Sigma Orionis.
The darkness of the
Horsehead is caused mostly by thick
dust,
although the lower part of the
Horsehead's neck casts a shadow to the left.
Streams of gas leaving the nebula are funneled by a strong
magnetic field.
Bright spots in the
Horsehead Nebula's base are
young stars just in the process of forming.
Light takes about 1500 years to reach us from the
Horsehead Nebula.
The
above image was taken with the
0.9-meter telescope at
Kitt Peak National Observatory.
APOD: 2007 January 25 - Orion's Cradle
Explanation:
Cradled in glowing hydrogen,
stellar
nurseries in Orion
lie at
the edge of a giant molecular cloud some 1,500 light-years away.
This breath-taking view
spans about 13 degrees across
the center of the well-known constellation with the
Great Orion
Nebula, the closest large star forming region,
just right of center.
The deep mosaic
also
includes (left of center), the Horsehead
Nebula, the Flame Nebula, and Orion's belt stars.
Image data acquired with a
hydrogen alpha filter adds
other remarkable features to this wide angle
cosmic vista -- pervasive tendrils of energized
atomic hydrogen gas and portions of the surrounding
Barnard's Loop.
While the Orion Nebula and belt stars are easy to see with the
unaided eye, emission from the extensive interstellar
gas is faint and much harder to record, even in telescopic views of the
nebula-rich complex.
APOD: 2007 January 6 - The Orion Deep Field
Explanation:
Adrift 1,500 light-years away in one of
the night sky's most recognizable
constellations, the glowing
Orion Nebula and the dark
Horsehead Nebula are contrasting
cosmic vistas.
But even fainter filaments of glowing gas are easily traced
throughout the region in
this
stunning composite image
that includes exposures filtered to record emission
from hydrogen atoms.
The view reveals extensive
nebulosities associated with
the giant Orion Molecular
Cloud
complex, itself hundreds of light-years across.
A magnificent emission region, the
Orion
Nebula (aka M42) lies at the
upper right of the picture.
Immediately to its left are a cluster of prominent bluish
reflection nebulae sometimes called
the Running Man.
The Horsehead
nebula appears as a dark cloud, a small silhouette
notched against the long red glow left of center.
Alnitak is the easternmost star in Orion's belt and
the brightest star to the left of the Horsehead.
Below Alnitak is the
Flame Nebula, with clouds of
bright emission and dramatic dark dust lanes.
Completing the trio of Orion's belt
stars, bluish Alnilam and Mintaka form a line with Alnitak,
extending to the upper left.
APOD: 2006 December 29 - Alnitak, Alnilam, Mintaka
Explanation:
Alnitak,
Alnilam,
and
Mintaka,
are the bright bluish stars
from east to west (left to right) along the diagonal in
this gorgeous cosmic vista.
Otherwise known as the
Belt of Orion, these
three blue supergiant stars are hotter and much more
massive than the Sun.
They lie about 1,500 light-years away, born
of Orion's
well-studied interstellar clouds.
In fact, clouds of gas and dust adrift in this region have
intriguing and some surprisingly familiar shapes, including the
dark Horsehead
Nebula and Flame Nebula near
Alnitak at the lower left.
The famous Orion Nebula
itself lies off the bottom of
this star field that covers an impressive 4.4x3.5
degrees on the sky.
The color picture was composited from
digitized
black and white photographic plates recorded
through red and blue astronomical filters, with a computer synthesized
green channel.
The plates were taken using the
Samuel
Oschin Telescope, a wide-field survey instrument at
Palomar
Observatory, between 1987 and 1991.
APOD: 2006 October 15 - An Orion Deep Field
Explanation:
Adrift 1,500 light-years away in one of
the night sky's
most recognizable
constellations, the glowing
Orion Nebula and the dark
Horsehead Nebula are contrasting
cosmic vistas.
They both appear in this stunning composite digital image
assembled from over 20 hours of data that includes exposures
filtered to record emission from hydrogen
atoms.
The view reveals extensive
nebulosities associated with
the giant Orion Molecular
Cloud
complex, itself hundreds of light-years across.
The magnificent emission region, the
Orion
Nebula (aka M42), lies at the
upper right of the picture.
Immediately to its left are a cluster of
of prominent bluish
reflection nebulae sometimes called
the Running Man.
The Horsehead
nebula appears as a dark cloud, a small silhouette
notched against the long red glow at the lower left.
Alnitak is the easternmost star in Orion's belt and
is seen as the brightest star to the left of the Horsehead.
Below Alnitak is the
Flame Nebula, with clouds of
bright emission and dramatic dark dust lanes.
Fainter tendrils of glowing hydrogen gas are easily traced
throughout the region in
this
Orion deep field.
APOD: 2006 October 10 - Reflection Nebulas in Orion
Explanation:
In the vast
Orion Molecular Cloud complex,
several bright blue nebulas are particularly apparent.
Pictured above are two of the most prominent
reflection nebulas -
dust clouds lit by the
reflecting light of bright embedded stars.
The more famous nebula is
M78,
near the image center, cataloged over 200 years ago.
On the upper left is the lesser known
NGC 2071.
The image was taken with the
Mayall 4-meter telescope
on Kitt Peak,
Arizona,
USA.
Astronomers continue to
study these
reflection nebulas to better understand how interior stars form.
The Orion complex
lies about 1500 light-years distant, contains the
Orion and
Horsehead nebulas,
and covers much of the
constellation of Orion.
APOD: 2006 August 8 - Horse Head Shaped Reflection Nebula IC 4592
Explanation:
Do you see the horse's head?
What you are seeing is not the famous
Horsehead nebula toward Orion but
rather a fainter nebula that only takes on a familiar form with deeper imaging.
The main part of the
above imaged
molecular cloud complex is a
reflection nebula
cataloged as
IC 4592.
Reflection nebulas are actually made up of very fine
dust that normally appears dark but can
look quite blue when reflecting the light of energetic nearby stars.
In this case, the source of much of the reflected light is a star at the eye of the horse.
That star is part of
Nu Scorpii,
one of the brighter star systems toward the
constellation of Scorpius.
A second
reflection nebula
dubbed IC 4601 is visible surrounding two stars on the far right.
APOD: 2006 April 17 - Barnard's Loop around the Horsehead Nebula
Explanation:
Why is the
Horsehead Nebula surrounded by a bubble?
Although glowing like an
emission nebula,
the origin of the
bubble, known as
Barnard's Loop, is currently unknown.
Progenitor hypotheses include the
winds
from bright Orion stars and the
supernovas
of stars long gone.
Barnard's Loop is too faint to be identified with the unaided eye.
The nebula
was discovered only in 1895 by
E. E. Barnard on long duration film exposures.
The above image was taken in a single
specific color emitted by
hydrogen to bring out detail.
To the left of the
Horsehead Nebula,
visible as the small dark indentation
near the image top, is the photogenic
Flame Nebula.
APOD: 2006 February 21 - Wisps Surrounding the Horsehead Nebula
Explanation:
The famous Horsehead Nebula in Orion is not alone.
A deep exposure shows that the
dark familiar shaped indentation,
visible just below center, is part of a
vast complex of absorbing
dust and
glowing gas.
To bring out details of the
Horsehead's pasture, amateur astronomers at the
Star Shadow Remote Observatory in
New Mexico,
USA
fixed a
small telescope on the region for over seven hours filtering out all but a
very specific color of
red light emitted by
hydrogen.
They then added the image to a full color frame taken over three hours.
The resulting
spectacular picture details an intricate tapestry of gaseous wisps and dust-laden filaments that were created and sculpted over eons by
stellar winds and
ancient supernovas.
The Horsehead Nebula lies 1,500
light years
distant towards the
constellation of
Orion.
Two stars from the Orion's Belt
can be found in the
above image.
APOD: 2005 November 30 - Reflections on the Horsehead Nebula
Explanation:
Sculpted by stellar winds and radiation,
a magnificent interstellar dust cloud by
chance has assumed this recognizable shape.
Fittingly named the
Horsehead
Nebula, it is some 1,500 light-years distant,
embedded in the vast Orion
cloud complex.
About five light-years "tall", the dark cloud is cataloged as
Barnard 33
and is visible only because its obscuring dust is
silhouetted against the glowing red
emission
nebula IC 434.
Contrasting blue reflection
nebula NGC 2023 is visible on the lower left.
In this gorgeous color
image, both Horsehead and NGC 2023 seem to be caught in beams
of light shining from above -- but
the beams are actually just internal reflections
from bright star
Sigma
Orionis, just off the upper edge
of the view.
APOD: 2005 October 13 - Alnitak, Alnilam, Mintaka
Explanation:
Alnitak,
Alnilam, and
Mintaka,
are the bright bluish stars
from east to west (left to right) along the diagonal in
this gorgeous cosmic vista.
Otherwise known as the
Belt of Orion, these
three blue supergiant stars are hotter and much more
massive than the Sun.
They lie about 1,500 light-years away, born
of Orion's
well-studied interstellar clouds.
In fact, clouds of gas and dust adrift in this region have
intriguing and some surprisingly familiar shapes, including the
dark Horsehead
Nebula and Flame Nebula near
Alnitak at the lower left.
The famous Orion Nebula
itself lies off the bottom of
this star field that covers an impressive 4.4x3.5
degrees on the sky.
The color picture was composited from
digitized
black and white photographic plates recorded
through red and blue astronomical filters, with a computer synthesized
green channel.
The plates were taken using the
Samuel
Oschin Telescope,
a wide-field survey instrument at
Palomar Observatory,
between 1987 and 1991.
APOD: 2005 April 20 - Barnard's Loop Around Orion
Explanation:
Why is the
belt of Orion surrounded by a bubble?
Although glowing like an
emission nebula,
the origin of the bubble, known as
Barnard's Loop, is currently unknown.
Progenitor hypotheses include the
winds
from bright Orion stars and the
supernovas
of stars long gone.
Barnard's Loop is too faint to be identified with the unaided eye.
The nebula
was discovered only in 1895 by
E. E. Barnard on long duration film exposures.
Orion's belt is seen as the
three bright stars across the center of the image,
the upper two noticeably blue.
Just to the right of the
lowest star in Orion's belt is a slight indentation in an
emission nebula that, when seen at
higher magnification, resolves into the
Horsehead Nebula.
To the right of the belt stars is the bright, famous, and photogenic
Orion Nebula.
APOD: 2005 March 21 - Orion's Horsehead Nebula
Explanation:
The Horsehead Nebula
is one of the most famous nebulae on the sky.
It is visible as the dark indentation to the red emission nebula
seen above and to the right of center in the
above photograph.
The bright star on the left is located in the
belt of the familiar constellation of Orion.
The horse-head
feature is dark because it is really an opaque
dust cloud which lies in
front of the bright red emission nebula.
Like clouds in Earth's atmosphere, this cosmic cloud has assumed a
recognizable shape by chance.
After many thousands of years, the internal motions of the cloud
will alter its appearance.
The emission nebula's red color is caused by
electrons recombining with
protons to form
hydrogen atoms.
Also visible in the picture are blue reflection nebulae,
which preferentially
reflect the blue light from
nearby stars.
APOD: 2004 March 15 - The Orion Nebula from CFHT
Explanation:
Few astronomical sights excite the imagination like the
nearby stellar nursery known as the
Orion Nebula.
The Nebula's glowing gas surrounds hot young stars at
the edge of an immense interstellar
molecular cloud only 1500 light-years away.
The Great Nebula in Orion can be
found with the unaided eye just below and to the left of the
easily identifiable
belt of three stars in the popular constellation Orion.
The above image from the
3.6-meter Canada-France-Hawaii Telescope atop a
dormant volcano in Hawaii brings out
Orion's detail in spectacular fashion.
Buried in the complex nebulosity are the bright stars of the
Trapezium in
Orion's heart, the sweeping lanes of
dark dust that cross the center,
the pervasive red glowing hydrogen gas,
and the
blue tinted dust
that reflects the light of newborn stars.
The whole Orion Nebula cloud complex, which includes the
Horsehead Nebula,
will slowly disperse over the next 100,000 years.
APOD: 2004 January 15 - An Orion Deep Field
Explanation:
Adrift 1,500 light-years away in one of
the night sky's
most recognizable
constellations, the glowing
Orion Nebula and the dark
Horsehead Nebula are contrasting
cosmic vistas.
They both appear in this stunning composite digital image
assembled from over 20 hours of data that includes exposures
filtered to record emission from hydrogen
atoms.
The view reveals extensive
nebulosities associated with
the giant Orion Molecular
Cloud
complex, itself hundreds of light-years across.
The magnificent emission region, the
Orion
Nebula (aka M42), lies at the
upper right of the picture.
Immediately to its left are a cluster of
of prominent bluish
reflection nebulae sometimes called
the Running Man.
The Horsehead
nebula appears as a dark cloud, a small silhouette
notched against the long red glow at the lower left.
Alnitak is the easternmost star in Orion's belt and
is seen as the brightest star to the left of the Horsehead.
Below Alnitak is the
Flame Nebula, with clouds of
bright emission and dramatic dark dust lanes.
Fainter tendrils of glowing hydrogen gas are easily traced
throughout the region in
this
Orion deep field.
APOD: 2003 October 7 - The Colorful Horsehead Nebula
Explanation:
While drifting through the cosmos, a magnificent interstellar
dust cloud became sculpted by stellar winds and radiation to
assume a recognizable shape.
Fittingly named the Horsehead Nebula, it is embedded in the vast and complex
Orion Nebula.
The dark
molecular cloud, roughly 1,500 light years distant, is cataloged as
Barnard 33
and is visible only because its obscuring dust is
silhouetted against the bright
emission nebula IC 434.
The bright blue
reflection nebula
NGC 2023 is visible on the lower left.
The prominent horse head
portion of the nebula is really just part of a
larger cloud of
dust which can be seen extending
toward the bottom of the picture.
A potentially rewarding but difficult object to view with a
small telescope, this gorgeous
representative-color image was taken by the large 3.6-m
Canada-France-Hawaii Telescope
in Hawaii,
USA.
APOD: 2003 July 13 - The Horsehead Nebula
Explanation:
One of the most identifiable nebulae in the sky,
the Horsehead Nebula in Orion, is part of a large, dark,
molecular cloud.
Also known as Barnard 33, the unusual shape was first
discovered on a
photographic plate in the late 1800s.
The red glow originates from
hydrogen gas predominantly behind the nebula,
ionized by the nearby bright star
Sigma Orionis.
The darkness of the
Horsehead is caused mostly by thick
dust,
although the lower part of the
Horsehead's neck casts a shadow to the left.
Streams of gas leaving the nebula are funneled by a strong
magnetic field.
Bright spots in the
Horsehead Nebula's base are
young stars just in the
process of forming.
Light takes about 1500 years to reach us from the
Horsehead Nebula.
The
above image was taken with the
0.9-meter telescope at
Kitt Peak National Observatory.
APOD: 2003 April 4 - Clusters and Nebulae of the Hexagon
Explanation:
At first, the bright stars of the large
asterism
known as the (northern)
Winter Hexagon might be hard to pick out in this gorgeous
deep sky mosaic from December 2002.
But placing your cursor over the picture will reveal the hexagon's
outlines and the bright clusters and nebulae along
a stunning portion of
the Milky Way
opposite the
galactic center.
The celestial highlights include
M42
(aka the Great Nebula of Orion),
Orion's Horsehead nebula,
the Rosette and
Cone nebulae, and nearby star clusters
M45 (Pleiades) and Gemini's own
M35.
For now, this hexagon is sinking low in western
evening skies.
APOD: 2003 January 29 - Orion's Horsehead Nebula
Explanation:
The Horsehead Nebula
is one of the most famous nebulae on the sky.
It is visible as the dark indentation to the red emission nebula
seen above and to the right of center in the
above photograph.
The bright star on the left is located in the
belt of the familiar constellation of Orion.
The
horse-head
feature is dark because it is really an opaque
dust cloud which lies in
front of the bright red emission nebula.
Like clouds in Earth's atmosphere,
this cosmic cloud has assumed a recognizable shape by chance.
After many thousands of years, the internal motions of the cloud
will alter its appearance.
The emission nebula's red color is caused by
electrons recombining with
protons to form
hydrogen atoms.
Also visible in the picture are blue reflection nebulae,
which preferentially
reflect the blue light from
nearby stars.
APOD: 2003 January 21 - The Reflecting Dust Clouds of Orion
Explanation:
In the vast
Orion Molecular Cloud complex,
several bright blue nebulas are particularly apparent.
Pictured above are two of the most prominent
reflection nebulas -
dust clouds lit by the
reflecting light of bright embedded stars.
The more famous nebula is
M78,
on the upper right, cataloged over 200 years ago.
On the lower left is the lesser known
NGC 2071.
Astronomers continue to
study these
reflection nebulas to better understand how interior stars form.
The Orion complex
lies about 1500 light-years distant, contains the
Orion and
Horsehead nebulas,
and covers much of the
constellation of Orion.
APOD: 2002 May 30 - Orion Nebulosities
Explanation:
Adrift 1,500 light-years away in one of the night sky's
most recognizable
constellations, the glowing
Orion Nebula and the dark
Horsehead Nebula are contrasting
cosmic vistas.
They both appear in this stunning composite color photograph along with
other nebulosities as part
of the giant Orion Molecular
Cloud
complex, itself hundreds of light-years across.
The magnificent
Orion
Nebula (aka M42) lies at the
bottom of the image.
This emission nebula's
bright central regions were
captured on fast film in a relatively short 30 second exposure.
Above M42
are a cluster of prominent bluish
reflection nebulae
and fainter reddish emission nebulae recorded in additional exposures
lasting up to 40 minutes.
The Horsehead
appears as a dark nebula, a small silhouette
notched against the long red glow at the upper left.
Alnitak is the easternmost star in Orion's belt and
is seen as the brightest star above the Horsehead.
Immediately to Alnitak's left is the
Flame Nebula, with clouds of
bright emission and dramatic dark dust lanes.
The telescopic
exposures were made from a site in the Southern French Alps
at an altitude of 2,800 meters (a little closer to the stars!)
in September of 2001.
APOD: 2002 February 13 - The Great Nebula in Orion
Explanation:
Few astronomical sights excite the imagination like the
nearby stellar nursery known as the
Orion Nebula.
The Nebula's glowing gas surrounds hot young stars at
the edge of an immense interstellar
molecular cloud only 1500 light-years away.
The Great Nebula in Orion can be
found with the unaided eye just below and to the left of the
easily identifiable
belt of three stars in the popular constellation Orion.
The above image has been contrast balanced to bring out Orion's detail
in spectacular fashion.
Visible simultaneously are the bright stars of the
Trapezium in
Orion's heart, the sweeping lanes of
dark dust that cross the center,
the pervasive red glowing hydrogen gas,
and the
blue tinted dust
that reflects the light of newborn stars.
The whole Orion Nebula cloud complex, which includes the
Horsehead Nebula,
will slowly disperse over the next 100,000 years.
APOD: 2002 February 11 - Reflection Nebula M78
Explanation:
An eerie blue glow and ominous columns of
dark dust highlight
M78, one of the brightest
reflection nebula
on the sky.
M78 is visible with a small telescope toward
the constellation of Orion.
The
dust
not only absorbs light, but also reflects the
light of several bright blue stars that
formed recently in the nebula.
The same type of scattering that colors the
daytime sky further enhances the blue color.
M78 is about five
light-years across.
M78
appears above only as it was 1600 years ago,
however, because that is how long it takes
light to go from
there to here.
M78
belongs to the larger
Orion Molecular Cloud Complex
that contains the
Great Nebula in Orion and the
Horsehead Nebula.
APOD: 2001 December 28 - Starlight Reflections
Explanation:
Interstellar dust grains
often find themselves in a reflective "mood".
Near a bright star, clouds of these dust particles scatter
short wavelengths of visible starlight
more readily than
long wavelengths, producing lovely blue reflection nebulae.
Nine of the more spectacular examples of these dusty, blue
stellar
neighborhoods
have been assembled here by
astrophotographer
Rob Gendler.
From left to right starting with the top row are
NGC 1977 in Orion,
IC2118 (the Witch Head),
and M78 also in Orion.
Across the middle row are,
M20 (Trifid),
NGC 2264 in Monoceros,
and
IC405 (Flaming Star Nebula).
Along the bottom are
NGC 2023 (near
the Horsehead),
NGC 7023 (Iris Nebula),
and finally bright star Merope surrounded by
a veil of dust (NGC 1435).
Merope is one of the seven sisters of the Pleiades.
APOD: 2001 December 16 - The Horsehead Nebula
Explanation:
One of the most identifiable nebulae in the sky,
the Horsehead Nebula in Orion, is part of a large, dark,
molecular cloud.
Also known as Barnard 33, the unusual shape was first
discovered on a
photographic plate in the late 1800s.
The red glow originates from
hydrogen gas predominantly behind the nebula,
ionized by the nearby bright star
Sigma Orionis.
The darkness of the
Horsehead is caused mostly by thick
dust,
although the lower part of the
Horsehead's neck casts a shadow to the left.
Streams of gas leaving the nebula are funneled by a strong
magnetic field.
Bright spots in the
Horsehead Nebula's base are
young stars just in the
process of forming.
Light takes about 1500 years to reach us from the
Horsehead Nebula.
The
above image was taken with the
0.9-meter telescope at
Kitt Peak National Observatory.
APOD: 2001 April 26 - Horsehead Rides Again
Explanation:
Difficult to see in small telescopes, the Horsehead nebula was
recently
selected by internet voters as a target for
the Hubble Space Telescope.
Above (top) is
Hubble's
detailed view of the
dark cosmic dust cloud, released
to celebrate the 11th anniversary of the workhorse orbiting observatory.
Below it is a
stunning
ground-based view from
the NOAO 0.9 meter telescope at
Kitt Peak National Observatory
which shows the dark Horsehead against a wider edge-on expanse of
glowing gas.
Dramatic dust and gas clouds in and
around
the Horsehead are part of a large,
complex stellar nursery seen towards the
constellation of Orion.
This star forming region is about 1,500 light-years distant and
includes the well known Orion nebula.
The Horsehead nebula is found just south of
Zeta Orionis, the
easternmost star in Orion's belt.
APOD: 2001 February 24 - Infrared Horsehead
Explanation:
This famous
cosmic dust cloud was
imaged in infrared light by the European Space Agency's
Infrared Space Observatory (ISO) satellite.
The false-color picture
shows the bright
infrared emission
from dust and molecular gas in part of
the Orion star forming region
surrounding the
Horsehead Nebula.
In visible light,
the horsehead-shaped dust cloud looks
dark against a background of bright glowing gas.
But in this image, the interstellar infrared glow engulfs
much of the horse's head.
Just above and to the right of center, only the top remains crowned
by a bright, newborn star.
The very bright object at the lower left is the reflection nebula
NGC 2023, a dense concentration of interstellar gas and
dust grains
also associated with newly formed stars.
APOD: 2001 January 30 - The Orion Nebula from VLT
Explanation:
The Great Nebula in Orion is a colorful place.
Visible to the unaided eye, it appears as a small
fuzzy patch in the
constellation of Orion.
But
this image, a representative-color composite of 81
near-infrared light images taken with
VLT's ISAAC, shows the
Orion Nebula to be a busy neighborhood of
young stars, hot gas, and dark dust.
The power behind much of the
Orion Nebula (M42) is the
Trapezium -
four of the brightest stars in the nebula.
The eerie blue glow surrounding the
bright stars pictured here is their own
starlight reflected by nearby
dust.
Dark brown
dust filaments
cover much of the region.
The whole
Orion Nebula cloud complex, which
includes the
Horsehead Nebula,
will slowly disperse over the next 100,000 years.
APOD: 2000 December 29 - The Dark Horsehead Nebula
Explanation:
While drifting through the cosmos
this magnificent interstellar dust cloud,
sculpted by stellar winds and radiation,
has chanced to assume a recognizable shape.
Fittingly named
The Horsehead Nebula
it is embedded in the immense complex of
star forming gas and dust
surrounding the
Orion Nebula some 1,500 light-years distant.
The dark nebula is
cataloged as Barnard 33 and is visible
only because its obscuring dust is silhouetted against
the bright emission nebulae
which lie behind it.
In fact, the prominent
horse head portion of the nebula is really just
part of a larger cloud of dust which can be seen extending off the
bottom of the picture.
A potentially rewarding but difficult object to view with a small
instrument,
this gorgeous color image
is a composite of exposures
made with a digital camera and astronomical
BVR filters
using a 1-meter diameter telescope.
APOD: 2000 August 27 - Orion's Horsehead Nebula
Explanation:
The Horsehead Nebula
is one of the most famous nebulae on the sky.
It is visible as the black indentation to the red emission nebula
seen just to the right of center of the above photograph.
The bright star near the center is located in the
belt of the familiar constellation of Orion.
The
horse-head
feature is dark because it is really an opaque
dust cloud which lies in
front of the bright red emission nebula.
Like clouds in Earth's atmosphere,
this cosmic cloud has assumed a recognizable shape by chance.
After many thousands of years, the internal motions of the cloud
will alter its appearance.
The emission nebula's red color is caused by
electrons recombining with
protons to form
hydrogen atoms.
Also visible in the picture are blue reflection nebulae,
which preferentially
reflect the blue light from
nearby stars.
APOD: 2000 April 24 - Reflection Nebula M78
Explanation:
An eerie blue glow and ominous columns of
dark dust highlight M78, a bright
reflection nebula
in the constellation of Orion.
The
dust
not only absorbs light, but also reflects the
light of several bright blue stars that
formed recently in the nebula.
The same type of scattering that colors the
daytime sky further enhances the blue color.
M78
is about five
light-years across and visible through a small telescope.
M78
appears above only as it was 1600 years ago,
however, because that is how long it takes
light to go from
there to here.
M78
belongs to the larger
Orion Molecular Cloud Complex
that contains the
Great Nebula in Orion and the
Horsehead Nebula.
APOD: September 14, 1999 - The Colorful Orion Nebula
Explanation:
The Great Nebula in Orion is a colorful place.
Visible to the unaided eye as a
fuzzy patch in the
constellation of Orion,
this image
taken with the
Big Throughput Camera shows the
Orion Nebula to be a busy neighborhood of
young stars, hot gas, and dark dust.
The power behind much of the
Orion Nebula (M42) is the
Trapezium -
four of the brightest stars in the nebula.
The eerie blue glow surrounding the
bright stars pictured here is their own
starlight reflected by nearby
dust.
Hot oxygen and
hydrogen gases cause the
extended green and pink glows, respectively.
Dark brown
dust filaments
cover much of the region.
The whole
Orion Nebula cloud complex, which
includes the
Horsehead Nebula,
will slowly disperse over the next 100,000 years.
APOD: July 13, 1999 - The Flame Nebula in Infrared
Explanation:
What lights up the Flame Nebula? Fifteen hundred
light years away towards the constellation of Orion lies a nebula which,
from its glow and dark
dust lanes,
appears like a billowing fire.
But
fire,
the rapid acquisition of
oxygen, is not what makes this
Flame glow.
Rather the bright star Alnitak, the easternmost star in the
Belt of Orion
visible to the nebula's right,
shines energetic light into the
Flame that knocks electrons away from the
great clouds of hydrogen gas that reside there.
Much of the glow results when the electrons and ionized hydrogen recombine. The above false-color picture of the Flame Nebula (NGC 2024)
was taken in
infrared light, where a young star cluster becomes visible.
The Flame Nebula is part of the
Orion Molecular Cloud Complex,
a star-forming region that includes the famous
Horsehead Nebula.
APOD: May 19, 1999 - The Horsehead Nebula
Explanation:
One of the most identifiable nebulae in the sky,
the Horsehead Nebula in Orion, is part of a large, dark,
molecular cloud.
Also known as Barnard 33, the unusual shape was first
discovered on a photographic plate in the late 1800s.
The red glow originates from
hydrogen gas predominantly behind the nebula,
ionized by the nearby bright star Sigma Orionis.
The darkness of the
Horsehead is caused mostly by thick
dust,
although the lower part of the
Horsehead's neck casts a shadow to the left.
Streams of gas leaving the nebula are funneled by a strong
magnetic field.
Bright spots in the
Horsehead Nebula's base are
young stars just in the
process of forming.
Light takes about 1500 years to reach us from the
Horsehead Nebula. The
above image was taken with the
0.9-meter telescope at
Kitt Peak National Observatory.
APOD: January 3, 1999 - Orion's Horsehead Nebula
Explanation:
The Horsehead Nebula
is one of the most famous nebulae on the sky. It is visible
as the black indentation to the red emission nebula
seen just to the right of center of the above photograph. The
bright star near the center is located in the belt of the familiar
constellation of Orion.
The horse-head feature is dark because it is really an opaque
dust cloud which lies in
front of the bright red emission nebula.
Like clouds in Earth's atmosphere,
this cosmic cloud has assumed a recognizable shape by chance.
After many thousands of years, the internal motions of the cloud
will alter its appearance. The emission nebula's
red color is caused by electrons recombining with protons to form
hydrogen atoms. Also
visible in the picture are blue reflection nebulae,
which preferentially
reflect the blue light from nearby stars.
APOD: August 6, 1998 - Infrared Horsehead
Explanation:
This famous
cosmic dust cloud was imaged in infrared light by
the European Space Agency's
Infrared Space Observatory (ISO) satellite.
The false-color picture
shows the bright
infrared emission
from dust and molecular gas
in part of
the Orion star forming region
surrounding
the Horsehead Nebula.
In visible light, the
horsehead-shaped dust cloud looks
dark against a background of bright glowing gas.
But in this image, the interstellar infrared glow engulfs
much of the horse's head.
Just above and to the right of center, only the top remains crowned
by a bright, newborn star.
The very bright object at the lower left is the reflection nebula
NGC 2023, a dense concentration of interstellar gas and
dust
which is also associated with newly formed stars.
APOD: June 4, 1998 - Comet SOHO and Nebulae in Orion
Explanation:
Astrophotographer Michael Horn
captured this
gorgeous view of
comet SOHO in the dark night sky above
Wandibindle, Queensland, Australia on May 23rd.
On this date,
comet SOHO
was moving against the background of
the nebula-rich constellation of Orion.
South is up in the
picture which shows SOHO's bright head or
coma and long
tail extending past
the glowing gas clouds and dark dust lanes of
the Flame and
Horsehead nebulae.
Alnitak, the bright star above and to the right of the
cometary coma, is also known as Zeta Orionis,
the eastern-most of the three stars in
Orion's belt.
Southern Hemisphere
observers report that comet SOHO has recently
undergone a dramatic increase in brightness.
APOD: December 1, 1997 - Orion: The Big Picture
Explanation:
Orion is big. Some of the stars that form the constellation of Orion are part of a giant gas cloud
complex that stretches over 100 light years and
appears more than 50 times the diameter of the Moon.
Components of this cloud include the
Horsehead Nebula, the
Orion Nebula, the
Trapezium
open cluster, and
small disks
containing stellar systems which are just forming.
At 1500 light years,
Orion is the closest star forming region to Earth.
Close inspection of the photo's center should reveal the
three stars which form the
belt of Orion.
APOD: October 25, 1997 - Orion's Horsehead Nebula
Explanation:
The Horsehead Nebula
is one of the most famous nebulae on the sky. It is visible
as the black indentation to the red emission nebula
seen just to the right of center of the above photograph. The
bright star near the center is located in the belt of the familiar
constellation of Orion.
The horse-head feature is dark because it is really an opaque
dust cloud which lies in
front of the bright red emission nebula.
Like clouds in Earth's atmosphere,
this cosmic cloud has assumed a recognizable shape by chance.
After many thousands of years, the internal motions of the cloud
will alter its appearance. The emission nebula's
red color is caused by electrons recombining with protons to form
hydrogen atoms. Also
visible in the picture are blue reflection nebulae,
which preferentially
reflect the blue light from nearby stars.
APOD: October 5, 1996 - A Close-Up of the Horsehead Nebula
Explanation: 1500 light years away lies a nebula of quite
peculiar shape. How did the dark dust
cloud shown above
come to be shaped like a horse's head? Nobody knows!
Barnard 33,
as this region is known to some, is surely a dark dust
cloud absorbing the light from the bright red emission nebula
behind it. The Horsehead Nebula
is also thought to be a region where low-mass stars form. But
the reason for gross shapes in the universe is frequently poorly
understood. Perhaps there is no simple explanation in this case.
Some stars are thought to be efficient creators of dust,
while others are much better at destroying it. The Horsehead
Nebula's dust distribution might just be the result of a specific
irregular distribution of stars and gas in its vicinity.
APOD: October 2, 1996 - Orion's Horsehead Nebula
Explanation: The Horsehead Nebula
is arguably the most famous nebula on the sky. It is visible
as the black indentation to the red emission nebula
seen just to the right of center of the above photograph. The
bright star near the center is located in the belt of the familiar
constellation of Orion.
The horse-head feature is dark because it is really an opaque
dust cloud which lies in
front of the bright red emission nebula.
Like clouds in Earth's atmosphere,
this cosmic cloud has assumed a recognizable shape by chance.
After many thousands of years, the internal motions of the cloud
will alter its appearance. The emission nebula's
red color is caused by electrons recombining with protons to form
hydrogen atoms. Also
visible in the picture are blue reflection nebulae,
which preferentially reflect the blue light from nearby stars.
APOD: September 25, 1995 - Orion's Horsehead Nebula
Explanation:
The black indentation to the red
emission nebula
seen just to the right of
center of the above photograph is one of the most famous features in any
nebulae on the sky. Because of its shape, it is known as the
Horsehead
Nebula. The bright star near the center is
located in the belt of the familiar constellation of Orion.
The horse head feature is dark because it is really a dense
dust cloud which lies
in front of the bright nebula and blocks the light.
Like clouds in our sky, this cosmic cloud has chanced to assume
a recognizable shape. After thousands of years, the
internal motions of the cloud will alter its appearance.
The emission nebula's
red color is caused by electrons recombining with protons to form
hydrogen atoms.
Also visible in the picture are blue
reflection nebulae.
This type of nebula contains dust which
preferentially reflects the blue light of nearby stars.