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Collection:
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NASA Spitzer Space Telescope Collection
Collection
NASA Spitzer Space Telescope Collection
Collection
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Title:
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Dark Globule in IC 1396
Title
Dark Globule in IC 1396
Title
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Description:
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NASA's Spitzer Space Telescope has captured a glowing stellar nursery within a dark globule that is opaque at visible light. These new images pierce through the obscuration to reveal the birth of new protostars, or embryonic stars, and young stars never before seen.
The Elephant's Trunk Nebula is an elongated dark globule within the emission nebula IC 1396 in the constellation of Cepheus. Located at a distance of 2,450 light-years, the globule is a condensation of dense gas that is barely surviving the strong ionizing radiation from a nearby massive star. The globule is being compressed by the surrounding ionized gas.
The large composite image on the left is a product of combining data from the observatory's multiband imaging photometer and the infrared array camera. The thermal emission at 24 microns measured by the photometer (red) is combined with near-infrared emission from the camera at 3.6/4.5 microns (blue) and from 5.8/8.0 microns (green). The colors of the diffuse emission and filaments vary, and are a combination of molecular hydrogen (which tends to be green) and polycyclic aromatic hydrocarbon (brown) emissions.
Within the globule, a half dozen newly discovered protostars are easily discernible as the bright red-tinted objects, mostly along the southern rim of the globule. These were previously undetected at visible wavelengths due to obscuration by the thick cloud ('globule body') and by dust surrounding the newly forming stars. The newborn stars form in the dense gas because of compression by the wind and radiation from a nearby massive star (located outside the field of view to the left). The winds from this unseen star are also responsible for producing the spectacular filamentary appearance of the globule itself, which resembles that of a flying dragon.
The Spitzer Space Telescope also sees many newly discovered young stars, often enshrouded in dust, which may be starting the nuclear fusion that defines a star. These young stars are too cool to be seen at visible wavelengths. Both the protostars and young stars are bright in the mid-infrared because of their surrounding discs of solid material. A few of the visible-light stars in this image were found to have excess infrared emission, suggesting they are more mature stars surrounded by primordial remnants from their formation, or from crumbling asteroids and comets in their planetary systems.
Description
NASA's Spitzer Space Telescope has captured a glowing stellar nursery within a dark globule that is opaque at visible light. These new images pierce through the obscuration to reveal the birth of new protostars, or embryonic stars, and young stars never before seen.
The Elephant's Trunk Nebula is an elongated dark globule within the emission nebula IC 1396 in the constellation of Cepheus. Located at a distance of 2,450 light-years, the globule is a condensation of dense gas that is barely surviving the strong ionizing radiation from a nearby massive star. The globule is being compressed by the surrounding ionized gas.
The large composite image on the left is a product of combining data from the observatory's multiband imaging photometer and the infrared array camera. The thermal emission at 24 microns measured by the photometer (red) is combined with near-infrared emission from the camera at 3.6/4.5 microns (blue) and from 5.8/8.0 microns (green). The colors of the diffuse emission and filaments vary, and are a combination of molecular hydrogen (which tends to be green) and polycyclic aromatic hydrocarbon (brown) emissions.
Within the globule, a half dozen newly discovered protostars are easily discernible as the bright red-tinted objects, mostly along the southern rim of the globule. These were previously undetected at visible wavelengths due to obscuration by the thick cloud ('globule body') and by dust surrounding the newly forming stars. The newborn stars form in the dense gas because of compression by the wind and radiation from a nearby massive star (located outside the field of view to the left). The winds from this unseen star are also responsible for producing the spectacular filamentary appearance of the globule itself, which resembles that of a flying dragon.
The Spitzer Space Telescope also sees many newly discovered young stars, often enshrouded in dust, which may be starting the nuclear fusion that defines a star. These young stars are too cool to be seen at visible wavelengths. Both the protostars and young stars are bright in the mid-infrared because of their surrounding discs of solid material. A few of the visible-light stars in this image were found to have excess infrared emission, suggesting they are more mature stars surrounded by primordial remnants from their formation, or from crumbling asteroids and comets in their planetary systems.
Description
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Release Date:
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2003/12/18
Release_Date
2003/12/18
Release Date
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Press Release:
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Press_Release
Press Release
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Release Credit:
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NASA/JPL-Caltech/W. Reach (Caltech)
Release_Credit
NASA/JPL-Caltech/W. Reach (Caltech)
Release Credit
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Image Credit:
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NASA/JPL-Caltech/W. Reach (SSC/Caltech)
Image_Credit
NASA/JPL-Caltech/W. Reach (SSC/Caltech)
Image Credit
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Object name:
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IC 1396 Globule
Object_name
IC 1396 Globule
Object name
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Object name:
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Trumpler 37
Object_name
Trumpler 37
Object name
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Object type:
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Dark globule inside emission nebula, Star forming region
Object_type
Dark globule inside emission nebula, Star forming region
Object type
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Position (J2000):
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*RA: *21h38m8.70s *Dec: *57d26m48.00s
Position_(J2000)
*RA: *21h38m8.70s *Dec: *57d26m48.00s
Position (J2000)
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Distance:
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2,450 light-years (750 parsecs)
Distance
2,450 light-years (750 parsecs)
Distance
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Constellation:
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Cepheus (the King)
Constellation
Cepheus (the King)
Constellation
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Wavelength:
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3.6-4.5 (blue), 5.8-8.0 (green), 24 (red) microns
Wavelength
3.6-4.5 (blue), 5.8-8.0 (green), 24 (red) microns
Wavelength
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Image scale:
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17.4 x 18.2 arcmin
Image_scale
17.4 x 18.2 arcmin
Image scale
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Observers:
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William T. Reach, Principal Investigator (SSC/California Institute of Technology)
Erick Young (University of Arizona)
Lori Allen (Smithsonian Astrophysical Observatory)
Jeonghee Rho (SSC/California Institute of Technology)
Sean Carey (SSC/California Institute of Technology)
Luisa Rebull (SSC/California Institute of Technology)
Susan Stolovy (SSC/California Institute of Technology)
Alberto Noriega-Crespo (SSC/California Institute of Technology)
Sergio Fajardo-Acosta (SSC/California Institute of Technology)
Jocelyn Keene (SSC/California Institute of Technology)
Thomas H. Jarrett (IPAC/California Institute of Technology)
Patrick Lowrance (IPAC/California Institute of Technology)
George H. Rieke (University of Arizona)
Lee Hartmann (Smithsonian Astrophysical Observatory)
Aurora Sicilia Aguilar (Smithsonian Astrophysical Observatory)
Tony Marston (European Space Agency)
Observers
William T. Reach, Principal Investigator (SSC/California Institute of Technology)
Erick Young (University of Arizona)
Lori Allen (Smithsonian Astrophysical Observatory)
Jeonghee Rho (SSC/California Institute of Technology)
Sean Carey (SSC/California Institute of Technology)
Luisa Rebull (SSC/California Institute of Technology)
Susan Stolovy (SSC/California Institute of Technology)
Alberto Noriega-Crespo (SSC/California Institute of Technology)
Sergio Fajardo-Acosta (SSC/California Institute of Technology)
Jocelyn Keene (SSC/California Institute of Technology)
Thomas H. Jarrett (IPAC/California Institute of Technology)
Patrick Lowrance (IPAC/California Institute of Technology)
George H. Rieke (University of Arizona)
Lee Hartmann (Smithsonian Astrophysical Observatory)
Aurora Sicilia Aguilar (Smithsonian Astrophysical Observatory)
Tony Marston (European Space Agency)
Observers
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Instrument:
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IRAC MIPS
Instrument
IRAC MIPS
Instrument
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Exposure Date:
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November 5, 2003 (IRAC); November 24, 2003 (MIPS)
Exposure_Date
November 5, 2003 (IRAC); November 24, 2003 (MIPS)
Exposure Date
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Exposure Time:
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8 seconds per position (IRAC); 48 seconds per position (MIPS)
Exposure_Time
8 seconds per position (IRAC); 48 seconds per position (MIPS)
Exposure Time
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Orientation:
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North is rotated 15 degrees counterclockwise from vertical
Orientation
North is rotated 15 degrees counterclockwise from vertical
Orientation
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note:
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*Spitzer/IRAC composite image of a dark globule in IC 1396. Emission from 3.6 microns (blue), 4.5 microns (green), 5.6 microns (orange) and 8.0 microns (red) have been combined in a single image* Screen-Resolution (450x370): JPEG [ http://ipac.jpl.nas…ssc2003-06a1_small.j pg ] High-Resolution (1142x939): JPEG | Mac TIFF | PC TIFF Credit: NASA/JPL-Caltech/W. Reach (SSC/Caltech)
note
*Spitzer/IRAC composite image of a dark globule in IC 1396. Emission from 3.6 microns (blue), 4.5 microns (green), 5.6 microns (orange) and 8.0 microns (red) have been combined in a single image* Screen-Resolution (450x370): JPEG [ http://ipac.jpl.nas…ssc2003-06a1_small.j pg ] High-Resolution (1142x939): JPEG | Mac TIFF | PC TIFF Credit: NASA/JPL-Caltech/W. Reach (SSC/Caltech) note
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note:
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*Spitzer/MIPS IRAC composite image of a dark globule in IC 1396* Screen-Resolution (429x450): JPEG [ http://ipac.jpl.nas…ssc2003-06b1_small.j pg ] High-Resolution (869x911): JPEG | Mac TIFF | PC TIFF Credit: NASA/JPL-Caltech/W. Reach (SSC/Caltech)
note
*Spitzer/MIPS IRAC composite image of a dark globule in IC 1396* Screen-Resolution (429x450): JPEG [ http://ipac.jpl.nas…ssc2003-06b1_small.j pg ] High-Resolution (869x911): JPEG | Mac TIFF | PC TIFF Credit: NASA/JPL-Caltech/W. Reach (SSC/Caltech) note
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note:
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*Spitzer/MIPS 24-micron image of a dark globule in IC 1396* Screen-Resolution (429x450): JPEG [ http://ipac.jpl.nas…ssc2003-06b2_small.j pg ] High-Resolution (869x911): JPEG | Mac TIFF | PC TIFF Credit: NASA/JPL-Caltech/W. Reach (SSC/Caltech)
note
*Spitzer/MIPS 24-micron image of a dark globule in IC 1396* Screen-Resolution (429x450): JPEG [ http://ipac.jpl.nas…ssc2003-06b2_small.j pg ] High-Resolution (869x911): JPEG | Mac TIFF | PC TIFF Credit: NASA/JPL-Caltech/W. Reach (SSC/Caltech) note
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facet_what:
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Spitzer Space Telescope
facet_what
Spitzer Space Telescope
facet_what
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facet_what:
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Visible Light
facet_what
Visible Light
facet_what
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facet_what:
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COMETS
facet_what
COMETS
facet_what
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facet_what:
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MIPS
facet_what
MIPS
facet_what
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facet_what:
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Cepheus
facet_what
Cepheus
facet_what
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facet_what:
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Infrared Array Camera (IRAC)
facet_what
Infrared Array Camera (IRAC)
facet_what
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facet_where:
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California
facet_where
California
facet_where
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facet_where:
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Arizona
facet_where
Arizona
facet_where
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facet_where:
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Jet Propulsion Laboratory (JPL)
facet_where
Jet Propulsion Laboratory (JPL)
facet_where
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facet_where:
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Washington, D.C.
facet_where
Washington, D.C.
facet_where
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facet_where:
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Stennis Space Center (SSC)
facet_where
Stennis Space Center (SSC)
facet_where
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facet_when:
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November 5, 2003
facet_when
November 5, 2003
facet_when
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facet_when:
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November 24, 2003
facet_when
November 24, 2003
facet_when
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facet_when_year:
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2003
facet_when_year
2003
facet_when_year
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Image #:
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ssc2003-06b
Image_#
ssc2003-06b
Image #
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original url:
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original_url
original url
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UID:
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SPD-SPITZ-ssc2003-06 b
UID
SPD-SPITZ-ssc2003-06 b
UID
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