News and Articles on
Colors From Space
- Cool Cosmos Educational Games, Classroom activities
about Infrared http://coolcosmos.ipac.caltech.edu/. Click here to
see visible Light/Infrared Side-By-Side Movies of Yellowstone,
Hawaii, & a rocket.
References
- 2 Micron All-Sky Survey http://www.ipac.caltech.edu/2mass/
- On color blindness...
- Infrared Science Archive (IRSA) http://irsa.ipac.caltech.edu/
- Spacecraft with instruments for observing beyond
the visible light spectrum
- The Color of the Universe -- http://www.pha.jhu.edu/~kgb/cosspec/ Excerpts
from an article by AP Science Writer, PAUL RECER, Scientists
Say Green Dominates Stars: Astronomers at Johns
Hopkins University said that averaging all the
colors from the light of 200,000 galaxies shows
that the current color of the universe is a sprightly
green. They predict the color will shift toward
red, however, in a few billion years. ...The current
color "is quite close to the standard shade of
pale turquoise, although it's a few percent greener," said
Karl Glazebrook, who worked out the color scheme
with another Hopkins researcher, Ivan Baldry. ...To
find this average color, the astronomers gathered
light from galaxies out to several billion light
years. ... They then averaged the color values
for all the light and converted it to the primary
color scale seen by the human eye. ...The astronomers
were analyzing the colors from the 200,000 galaxies
to determine the relative ages of the stars within
those galaxies. Young stars are hot and blue; middle
aged stars are more green, and stars nearing their
end tend to be redder. ...Earlier in the 14 or
15 billion-year life of the universe, said Baldry,
the average color of the universe was more blue
because it had a higher proportion of young stars.
The formation of new stars has decreased for billions
of years and the ratio of young-to-old stars has
changed, giving the universe the current average
hue of green. ...Eventually, billions of years
in the future, said Baldry, the average color will
trend toward red as the star population ages further
and even fewer young stars are formed.
Online spectra: http://www.colorado.edu/physics/2000/quantumzone/
Online Articles and News about
Colors in Astronomy
- 2009 August 5. NASA RELEASE: 09-181. NASA'S
Spitzer Sees The Cosmos Through 'Warm' Infrared
Eyes. Excerpt: WASHINGTON --
NASA's Spitzer Space Telescope is starting a second
career and taking its first shots of the cosmos
since warming up. The infrared telescope ran out
of coolant May 15, 2009, more than five-and-one-half-years
after launch. It has since warmed to a still-frosty
30 degrees Kelvin (about minus 406 degrees Fahrenheit).
New images taken with two of Spitzer's infrared
detector channels -- two that work at the new warmer
temperature -- demonstrate the observatory remains
a powerful tool for probing the dusty universe.
The images show a bustling star-forming region,
the remains of a star similar to the sun, and a
swirling galaxy lined with stars.
...Since its launch from Cape Canaveral, Fla.,
on Aug. 25, 2003, Spitzer has made many discoveries.
They include planet-forming disks around stars,
the composition of the material making up comets,
hidden black holes, galaxies billions of light-years
away and more.
Perhaps the most revolutionary and surprising Spitzer
finds involve planets around other stars, called
exoplanets. In 2005, Spitzer detected the first
photons of light from an exoplanet. In a clever
technique, now referred to as the secondary-eclipse
method, Spitzer was able to collect the light of
a hot, gaseous exoplanet and learn about its temperature.
Later detailed studies revealed more about the
composition and structure of the atmospheres of
these exotic worlds.
Warm Spitzer will address many of the same science
questions as before. It also will tackle new projects,
such as refining estimates of Hubble's constant,
or the rate at which our universe is stretching
apart; searching for galaxies at the edge of the
universe; characterizing more than 700 near-Earth
objects, or asteroids and comets with orbits that
pass close to our planet; and studying the atmospheres
of giant gas planets expected to be discovered
soon by NASA's Kepler mission....
- 2005 Mar 3. News Release: 2005-031 Spitzer Space
Telescope Provides Visual Feast Online. The
magic of NASA's Spitzer Space Telescope comes alive
in an online interactive presentation, available
now at http://www.jpl.nasa.gov/stars_galaxies/ or http://www.nasa.gov/centers/jpl/starsgalaxies/index.html.
The show-and-tell feature highlights colorful images
of galaxies, nebulas and other celestial wonders,
all captured during the mission's first year-and-a-half
in space. The images, coupled with artists' concepts,
text and interviews with scientists, illustrate how
Spitzer's powerful infrared eyes are dramatically
enhancing our knowledge of the universe. Infrared
is particularly effective for penetrating thick,
murky regions of space and revealing what lies beyond.
Recent Spitzer discoveries include details about
the chaotic planet-forming process around stars;
a faint, star-like object in an area previously believed
to be star-free; and a star system that may harbor
the youngest planet ever found.
- January 2004. Why can't
we see green stars? From Astronomy Magazine, "Ask
Astro"
p. 73.
- December 18, 2003 NASA RELEASE : 03-411 NASA
Releases Dazzling Images From New Space Telescope. A
new window to the universe was opened with today's
release of the first dazzling images from NASA's
newly named Spitzer Space Telescope, formerly known
as the Space Infrared Telescope Facility. The first
observations, of a glowing stellar nursery; a swirling,
dusty galaxy; a disc of planet-forming debris;
and organic material in the distant universe, demonstrate
the power of the telescope's infrared detectors
to capture cosmic features never before seen. The
Spitzer Space Telescope was also officially named
today after the late Dr. Lyman Spitzer, Jr. He
was one of the 20th century's most influential
scientists, and in the mid-1940s, he first proposed
placing telescopes in space. ...While the other
Great Observatories have probed the universe with
visible light (Hubble Space Telescope), gamma rays
(Compton Gamma Ray Observatory) and X-rays (Chandra
X-ray Observatory), the Spitzer Space Telescope
observes the cosmos in the infrared. Spitzer's
unprecedented sensitivity allows it to sense infrared
radiation, or heat, from the most distant, cold
and dust-obscured celestial objects. Today's initial
images revealed the versatility of the telescope,
and its three science instruments. Spitzer Space
Telescope (formerly SIRTF--Space Infrared Telescope
Facility) http://www.spitzer.caltech.edu
- The
Meaning of Color in Hubble Images
- June 5, 2002 . Hubble's Infrared Camera
is Back in Business -- New Images Released
-- http://oposite.stsci.edu/pubinfo/pr/2002/13/ -- After
more than three years of inactivity, the Near
Infrared Camera and Multi-Object Spectrometer
(NICMOS) has reopened its ñnear-infrared
eyesî on the universe, snapping several
breathtaking views, from the craggy interior
of a star-forming cloud to a revealing look at
the heart of an edge-on galaxy.
- March 20, 2002 -NASA CELEBRATES SUN-EARTH DAY
WITH SOLAR X-RAY FIREWORKS -- http://www.gsfc.nasa.gov/topstory/20020320hessixray.html -- Just
in time for Sun-Earth Day, a new NASA spacecraft,
complete with a new name, made its debut by observing
a huge explosion in the atmosphere of the Sun. The
blast, called a solar flare, was equal to one million
megatons of TNT and gave off powerful bursts of X-rays.
X-ray movie from RHESSI.(Reuven Ramaty High-Energy
Solar Spectroscopic Imager) spacecraft
- March 13, 2002 -- Ultraviolet movies of Jupiter http://photojournal.jpl.nasa.gov/targetFamily/Jupiter
- Dec. 19, 2001 -- HOT GALACTIC ARMS POINT TO VICIOUS
CYCLE ftp://ftp.hq.nasa.gov/pub/pao/pressrel/2001/01-252.txt -- NASA's
Chandra X-ray Observatory has revealed the aftermath
of a titanic explosion that wracked the elliptical
galaxy known as NGC 4636. This eruption could be
the latest episode in a cycle of violence triggered
by gas falling into a central massive black hole.
Chandra's images of NGC 4636 show spectacular symmetric
arms, or arcs, of hot gas extending 25,000 light-years
into a huge cloud of multimillion-degree Celsius
gas that envelopes the galaxy. At a temperature of
10 million degrees, the arms are 30 percent hotter
than the surrounding gas cloud.
"The temperature jump, together with the symmetry
and scale of the arms, suggests that we are observing
the effects of a tremendous outburst that occurred
in the center of the galaxy,"
said Christine Jones of the Harvard-Smithsonian
Center for Astrophysics (CfA) in Cambridge, Mass.,
lead author of a paper on these observations scheduled
for publication in Astrophysical Journal Letters. "The
energy of this explosion would be the equivalent
of several hundred thousand supernovas." RELEASE:
01-252
- Nov. 29, 2001 -- Chandra captures Venus
in a whole new light -- Scientists
have captured the first X-ray view of Venus using
NASA's Chandra X-ray Observatory. The observations
provide new information about the atmosphere
of Venus and open a new window for examining
Earth's sister planet. Release:
01-362.
- Nov. 7, 2001 -- NASA'S HETE SPOTS RARE GAMMA-RAY
BURST AFTERGLOW -- ftp://ftp.hq.nasa.gov/pub/pao/pressrel/2001/01-218.txt A
rare optical afterglow of a gamma-ray burst, the
most powerful type of explosion in the universe,
was recently discovered by NASA's High Energy Transient
Explorer (HETE), the first satellite dedicated to
spotting these frequent yet random explosions that
last only for a few seconds. RELEASE: 01-218
- November 1, 2001 Hubble Reveals Ultraviolet
Galactic Ring -- http://oposite.stsci.edu/pubinfo/PR/2001/37/index.html -- Galaxy
NGC 6782, when seen in visible light,
exhibits tightly wound spiral arms that
give it a pinwheel shape similar to that
of many other spirals. However, when
the galaxy is viewed in ultraviolet light
with NASA's Hubble Space Telescope, its
shape is startlingly different. STScI-PRC01-37.
- Sept 14, 2001 CHANDRA SPIES
RARE ISOTOPES (Sky & Telescope magazine
online)
By peering
deep into the Orion Nebula,
scientists using the Chandra
X-ray Observatory may have
solved one of the lingering
questions about the early
days of our own solar system.
The team lead by Eric
Feigelson (Pennsylvania
State University), detected
high abundances of three
atomic isotopes -- aluminum-26,
calcium-41, and beryllium-10
-- around young stars
in the nebula. The isotopes
were created by X-ray
solar flares from the
infant stars.
The same elements are
found in our solar system,
locked tightly in ancient
meteorites. Yet astronomers
had struggled to understand
how those isotopes got
there. The isotopes have
a relatively short life,
meaning they must have
formed sometime after
the solar system's birth.
Nevertheless, it remained
unclear how our Sun could
produce them. Only high-mass
stars were believed capable
of forming such isotopes.
Thus the most likely
suspect was a nearby
supernova explosion.
From the X-ray observations,
astronomers now see that
young Sun-like stars
not only can produce
these isotopes, they
can do it in the abundances
necessary to match the
solar system's observed
quantities. Feigelson
explains, "This is an
excellent example of
how apparently distant
scientific fields like
X-ray astronomy and the
origins of solar systems
can in fact be linked."
- Sept. 6, 2001 CHANDRA PROBES NATURE
OF DARK MATTER -- RELEASE:
01-180
- Sept. 5, 2001 CHANDRA CATCHES MILKY
WAY MONSTER SNACKING. RELEASE:
01-179
- Aug. 9, 2001 Astronomers go
behind the Milky Way to solve X-ray
mystery Release:
01-272
- August 9, 2001 New View of Primordial
Helium Traces the Structure of Early
Universe http://oposite.stsci.edu/pubinfo/pr/2001/27/ NASA's
Far Ultraviolet Spectroscopic Explorer
(FUSE)
- August 9, 2001 Through layers of gas
and dust that stretch for more than 30,000
light-years, astronomers using NASA's
Chandra X- ray Observatory have taken
a long, hard look at the plane of the
Milky Way galaxy and found that its X-ray
glow comes from hot and diffuse gas. ftp://ftp.hq.nasa.gov/pub/pao/pressrel/2001/01-161.txt
- August 9, 2001 NASA's Far
Ultraviolet Spectroscopic Explorer
(FUSE) satellite has given astronomers
their best glimpse yet at the
ghostly cobweb of helium gas
left over from the Big Bang,
which underlies the universe's
structure. ftp://ftp.hq.nasa.gov/pub/pao/pressrel/2001/01-160.txt
- Kaler, James B., "Beyond the
Rainbow", Astronomy Magazine,
September, 2000, pp. 38-43. ... "Astronomers
have opened new windows on the
universe by studying the kinds
of 'light' we can't see with
our eyes."
- 06/16/00 Astronomers Win
Protection for Key Part of
Spectrum http://www.nsf.gov/cgi-bin/getpub?pr0046 --
NSF Custom News Service http://www.nsf.gov/home/cns/start.htm
- 06/16/00 SUGAR IN SPACE As
but one example of the power
of radio astronomy, researchers
have announced the discovery
of a simple sugar molecule, glycolaldehyde,
in interstellar space. The location
is a dense cloud of gas and dust
some 26,000 light-years away,
in the direction of the galactic
center. According to astronomer
Jan Hollis, the discovery of
glycolaldehyde makes it increasingly
likely that the chemical precursors
of life are synthesized in these
dense clouds long before the
gas and dust collapses to form
stars and planets. Notably, the
eight-atom molecule was identified
with a 12-meter-wide radio telescope
atop Kitt Peak in Arizona, and
the National Science Foundation
will shut down this telescope
in July, in preparation for a
new telescope array being built
in northern Chile. (Sky & Telescope magazine)
- 04/14/00 Radio
Telescope Reaches Construction
Milestone (Sky & Telescope magazine)
- 03/00 James Trefil, Reaching
for the Sun -- How we learned
to read the chemistry of
stars and planets;
(Astronomy Magazine,
pages 70-74); historical
references to Joseph von
Frauenhofer, Gustav Kirchhoff,
Robert Bunsen, Norman Lockyer.
Hard Copy Articles About
Color in Astronomy
- Bova, Ben, Fingerprints from Rainbows, Mercury
magazine, Sept/Oct 2004, p. 22-29. "Besides
light's ability to illuminate the wolrd around us,
it also has an equally profound ability to inform
us of the nature of objects in that world."
- Comins, Neal F., Beyond the Pale, Astronomy Magazine,
May, 2002, pp.40-45.
- Skrutskie, Michael, 2MASS: Unveiling the
Inrared Universe, Sky & Telescope magazine,
July 2001, p. 34.
- Wanjek, Christopher, Chandra Delivers, Mercury Magazine,
March-April, 2001 Chandra's 1st 18 months in orbit
have yielded a bonanza of scientific discoveries.
- T. Joseph W. Lazio, Razor-Sharp Radio Astronomy,
May-June, 2001, Mercury Magazine. pp. 34-40.
By constructing virtual telescopes the size of continents
(and larger) radio astronomers are obtaining spectacular
high resolution results.
- Zimmerman, Robert, Seeing with X-ray Eyes, Astronomy Magazine,
May 2001, page 36. The Chandra X-ray Observatory
is giving astronomers their sharpest view ever of
the high-temperature universe.
Hard Copy Books About Color
in Astronomy
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