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Ohio State Astronomy and Kepler: Caution, Science!

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Archive for university of arizona

Probe counts space rock impacts on Mars

By alkaon on May 17, 2013 No Comments

Cluster-of-impact-craters-on-MarsScientists using images from NASA’s Mars Reconnaissance Orbiter (MRO) have estimated that Mars is bombarded by more than 200 small asteroids or bits of comets per year, forming craters at least 12.8 feet (3.9 meters) across.

Researchers have identified 248 new impact sites on parts of the martian surface in the past decade, using images from the spacecraft to determine when the craters appeared. The 200-per-year planet-wide estimate is a calculation based on the number found in a systematic survey of a portion of the planet.

MRO’s High Resolution Imaging Science Experiment (HiRISE) camera took pictures of the fresh craters at sites where before-and-after images by other cameras bracketed when the impacts occurred. This combination provided a new way to make direct measurements of the impact rate on Mars. This will lead to better age estimates of recent features on Mars, some of which may have been the result of climate change.

“It’s exciting to find these new craters right after they form,” said Ingrid Daubar of the University of Arizona in Tucson. “It reminds you Mars is an active planet, and we can study processes that are happening today.”

These asteroids or comet fragments typically are no more than 3 to 6 feet (1 to 2 meters) in diameter. Space rocks too small to reach the ground on Earth cause craters on Mars because the Red Planet has a much thinner atmosphere.

HiRISE targeted places where dark spots had appeared during the time between images taken by the spacecraft’s Context Camera (CTX) or cameras on other orbiters. The new estimate of cratering rate is based on a portion of the 248 new craters detected. It comes from a systematic check of a dusty fraction of the planet with CTX since late 2006. The impacts disturb the dust, creating noticeable blast zones. In this part of the research, 44 fresh impact sites were identified.

The meteor over Chelyabinsk, Russia, in February was about 10 times bigger than the objects that dug the fresh martian craters.

Estimates of the rate at which new craters appear serve as scientists’ best yardstick for estimating the ages of exposed landscape surfaces on Mars and other worlds.

Daubar and his team calculated a rate for how frequently new craters at least 12.8 feet (3.9 meters) in diameter are excavated. The rate is equivalent to an average of one each year on each area of the martian surface roughly the size of the U.S. state of Texas. Earlier estimates pegged the cratering rate at three to 10 times more craters per year. They were based on studies of craters on the Moon and the ages of lunar rocks collected during NASA’s Apollo missions in the late 1960s and early 1970s.

“Mars now has the best-known current rate of cratering in the solar system,” said HiRISE Principal Investigator Alfred McEwen of the University of Arizona.

MRO has been examining Mars with six instruments since 2006. “The longevity of this mission is providing wonderful opportunities for investigating changes on Mars,” said Leslie Tamppari of NASA’s Jet Propulsion Laboratory in Pasadena, California.

Article source: http://www.astronomy.com/~/link.aspx?_id=f59ce3e9-00bd-49bf-a2bb-5da6efc8a391

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Probe counts space rock impacts on Mars

By alkaon on May 17, 2013 No Comments

Cluster-of-impact-craters-on-MarsScientists using images from NASA’s Mars Reconnaissance Orbiter (MRO) have estimated that Mars is bombarded by more than 200 small asteroids or bits of comets per year, forming craters at least 12.8 feet (3.9 meters) across.

Researchers have identified 248 new impact sites on parts of the martian surface in the past decade, using images from the spacecraft to determine when the craters appeared. The 200-per-year planet-wide estimate is a calculation based on the number found in a systematic survey of a portion of the planet.

MRO’s High Resolution Imaging Science Experiment (HiRISE) camera took pictures of the fresh craters at sites where before-and-after images by other cameras bracketed when the impacts occurred. This combination provided a new way to make direct measurements of the impact rate on Mars. This will lead to better age estimates of recent features on Mars, some of which may have been the result of climate change.

“It’s exciting to find these new craters right after they form,” said Ingrid Daubar of the University of Arizona in Tucson. “It reminds you Mars is an active planet, and we can study processes that are happening today.”

These asteroids or comet fragments typically are no more than 3 to 6 feet (1 to 2 meters) in diameter. Space rocks too small to reach the ground on Earth cause craters on Mars because the Red Planet has a much thinner atmosphere.

HiRISE targeted places where dark spots had appeared during the time between images taken by the spacecraft’s Context Camera (CTX) or cameras on other orbiters. The new estimate of cratering rate is based on a portion of the 248 new craters detected. It comes from a systematic check of a dusty fraction of the planet with CTX since late 2006. The impacts disturb the dust, creating noticeable blast zones. In this part of the research, 44 fresh impact sites were identified.

The meteor over Chelyabinsk, Russia, in February was about 10 times bigger than the objects that dug the fresh martian craters.

Estimates of the rate at which new craters appear serve as scientists’ best yardstick for estimating the ages of exposed landscape surfaces on Mars and other worlds.

Daubar and his team calculated a rate for how frequently new craters at least 12.8 feet (3.9 meters) in diameter are excavated. The rate is equivalent to an average of one each year on each area of the martian surface roughly the size of the U.S. state of Texas. Earlier estimates pegged the cratering rate at three to 10 times more craters per year. They were based on studies of craters on the Moon and the ages of lunar rocks collected during NASA’s Apollo missions in the late 1960s and early 1970s.

“Mars now has the best-known current rate of cratering in the solar system,” said HiRISE Principal Investigator Alfred McEwen of the University of Arizona.

MRO has been examining Mars with six instruments since 2006. “The longevity of this mission is providing wonderful opportunities for investigating changes on Mars,” said Leslie Tamppari of NASA’s Jet Propulsion Laboratory in Pasadena, California.

Article source: http://www.astronomy.com/~/link.aspx?_id=f59ce3e9-00bd-49bf-a2bb-5da6efc8a391

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NASA Probe Counts Space Rock Impacts on Mars

By alkaon on May 16, 2013 No Comments

RELEASE
:
13-142

NASA Probe Counts Space Rock Impacts on Mars

WASHINGTON — Scientists using images from NASA’s Mars Reconnaissance Orbiter (MRO) have estimated that the planet is bombarded by more than 200 small asteroids or bits of comets per year forming craters at least 12.8 feet (3.9 meters) across.

Researchers have identified 248 new impact sites on parts of the Martian surface in the past decade, using images from the spacecraft to determine when the craters appeared. The 200-per-year planetwide estimate is a calculation based on the number found in a systematic survey of a portion of the planet.

MRO’s High Resolution Imaging Science Experiment (HiRISE) camera took pictures of the fresh craters at sites where before-and-after images by other cameras bracketed when the impacts occurred. This combination provided a new way to make direct measurements of the impact rate on Mars. This will lead to better age estimates of recent features on Mars, some of which may have been the result of climate change.

“It’s exciting to find these new craters right after they form,” said Ingrid Daubar of the University of Arizona, Tucson, lead author of the paper published online this month by the journal Icarus. “It reminds you Mars is an active planet, and we can study processes that are happening today.”

These asteroids or comet fragments typically are no more than 3 to 6 feet (1 to 2 meters) in diameter. Space rocks too small to reach the ground on Earth cause craters on Mars because the Red Planet has a much thinner atmosphere.

HiRISE targeted places where dark spots had appeared during the time between images taken by the spacecraft’s Context Camera (CTX) or cameras on other orbiters. The new estimate of cratering rate is based on a portion of the 248 new craters detected. If comes from a systematic check of a dusty fraction of the planet with CTX since late 2006. The impacts disturb the dust, creating noticeable blast zones. In this part of the research, 44 fresh impact sites were identified.

The meteor over Chelyabinsk, Russia, in February was about 10 times bigger than the objects that dug the fresh Martian craters.
     
Estimates of the rate at which new craters appear serve as scientists’ best yardstick for estimating the ages of exposed landscape surfaces on Mars and other worlds.

Daubar and co-authors calculated a rate for how frequently new craters at least 12.8 feet (3.9 meters) in diameter are excavated. The rate is equivalent to an average of one each year on each area of the Martian surface roughly the size of the U.S. state of Texas. Earlier estimates pegged the cratering rate at three to 10 times more craters per year. They were based on studies of craters on the moon and the ages of lunar rocks collected during NASA’s Apollo missions in the late 1960s and early 1970s.

“Mars now has the best-known current rate of cratering in the solar system,” said HiRISE Principal Investigator Alfred McEwen of the University of Arizona, a co-author on the paper.

MRO has been examining Mars with six instruments since 2006.

“The longevity of this mission is providing wonderful opportunities for investigating changes on Mars,” said MRO Deputy Project Scientist Leslie Tamppari of NASA’s Jet Propulsion Laboratory, Pasadena, Calif.

The University of Arizona Lunar and Planetary Laboratory operates the HiRISE camera, which was built by Ball Aerospace Technologies Corp. of Boulder, Colo. Malin Space Science Systems of San Diego built and operates the Context Camera. JPL manages the Mars Reconnaissance Orbiter for NASA’s Science Mission Directorate in Washington. Lockheed Martin Space Systems of Denver, built the orbiter.

To see images of the craters, visit:

http://uahirise.org/sim

For more information about HiRISE, visit:

http://hirise.lpl.arizona.edu

For more about MRO, visit:

http://www.nasa.gov/mro

– end –


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Article source: http://www.nasa.gov/home/hqnews/2013/may/HQ_13-142_Mars_MRO_Craters.html

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Mars expert enlightens local astronomy club

By alkaon on November 25, 2012 No Comments


Posted: Saturday, November 24, 2012 7:00 pm
|


Updated: 1:24 pm, Fri Nov 23, 2012.


Mars expert enlightens local astronomy club

Staff report

Your West Valley

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The West Valley Astronomy Club will present: “Discovering the History of Mars” at 7 p.m. Tuesday in the Unitarian Universalist Church, 17540 N. Avenue of the Arts, Surprise.


The featured speaker is William Hartmann, Planetary Science Institute, University of Arizona. He will describe how we use the orbiter photos to interpret the ages of various features on Mars, such as the Arizona-like dry riverbeds, volcanoes, etc.

Bill has been involved in a number of Mars orbiter missions and is credited with introducing the current theory of the origin of the moon (with Don Davis at the Planetary Science Institute in Tucson).

Contact John at 623-544 2425 about this event.

Posted in
Surprise

on

Saturday, November 24, 2012 7:00 pm.

Updated: 1:24 pm.

Article source: http://www.yourwestvalley.com/surprise/article_be3bc56c-356f-11e2-a727-001a4bcf887a.html

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It’s Full of Stars! Globular Cluster Sparkles in Cosmic Photo

By alkaon on October 26, 2012 No Comments

Astronomer Adam Block took this spectacular photo of Messier 5 from Mt. Lemmon SkyCenter, University of Arizona

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UA MacArthur Fellow Brings Alien Worlds to Your Backyard

By alkaon on October 3, 2012 No Comments

University of Arizona assistant professor Olivier Guyon has made it his mission to enable amateur astronomers and school children to discover alien planets far outside our solar system. For his breakthroughs in telescope optics and his vision of bringing cutting-edge science to the public, he was awarded the $500,000 MacArthur Fellowship.


University of Arizona astronomer and optical scientist Olivier Guyon has been named a 2012 MacArthur Fellow for his contributions and creative potential toward the study of planets outside the solar system and for his vision of involving the public in their discovery.

“When I was 10 years old, someone in my family gave me a book about astronomy, and I started looking at the sky and reading about it,” Guyon said in a recorded video statement. “Then I got a bigger telescope, and it never stopped.”

Guyon, who obtained his doctorate in physics at the Université Paris VI in France in 2002, has been an assistant professor of astronomy and optical sciences at the UA since 2008. He has a joint appointment in the College of Science’s department of astronomy and the College of Optical Sciences.

The young researcher develops optics for astronomy, specifically techniques to take images of exoplanets, planets outside our solar system.

“Every star you see at night has planets, and they’re called exoplanets,” Guyon said. “They’re extremely important because if there is life elsewhere in the universe, it is probably on a planet that is similar to the Earth around another star.”

He said scientists are looking at exoplanets in the hope of finding life outside the solar system. However, unlike stars, which are bright and relatively easy to observe, exoplanets hide in the overwhelming glare of their parent stars, making them invisible to conventional telescopes.

“If you try to point a normal telescope at star and try to take an image of the planet next to the star, it won’t work because the glare of the star is going to prevent us from actually seeing the planet, which is much, much fainter than the star,” Guyon explained. “Once we have identified such planets, PIAA (Phase-Induced Amplitude Apodization) allows us to study them. We can look at their colors. Do they have oceans? Atmosphere? Land? Clouds?”

Guyon develops optical techniques that massage the light of the telescope in a way that eliminates the glare and makes the planet emerge from the darkness.

One such technique is Phase-Induced Amplitude Apodization, or PIAA. In the process, he has figured out ways to get away with mirrors half the size of what scientists deemed necessary to accomplish this feat, making the search for alien worlds cheaper, less equipment-intensive and therefore more accessible. In doing so, Guyon hopes to involve the public and amateur astronomers in the search and discovery of exoplanets.

“In the last two years, I have been working on how to make this technique affordable and easy to use for amateur astronomers, schools and the general public to actually implement in their backyard,” he said.

While Guyon currently is working to optimize the performance of ground-based PIAA instruments, the foundation pointed out that the PIAA design significantly reduces the engineering and cost obstacles to deploying a planet-locating telescope in low-Earth orbit.

The fellowship also rewards Guyon’s contributions to other aspects of instrumentation, such as adaptive optics and low-cost, lightweight telescopes for amateurs.

“In all aspects of his work, from theoretical calculations to laboratory fabrication, Guyon relentlessly tests and pushes boundaries to construct instruments that are key to one of the great scientific adventures of our time – searching the galaxy for other planets like our own,” according to the nomination announcement.

Jim Wyant, former dean of the College of Optical Sciences, said: “When I met Olivier four or five years ago, I was extremely impressed. He’s so clever, so full of ideas – there’s no question that he deserves this.”

# # #

LINKS:

Further information and high-resolution photos can be obtained on the Mac Arthur Fellowship Website: http://www.macfound.org/fellows/866 .

MacArthur Fellowship Program: http://www.macfound.org

UA Department of Astronomy: https://www.as.arizona.edu

UA College of Optical Sciences: http://fp.optics.arizona.edu

Article source: http://explorernews.com/blogs/university_of_arizona/article_9e018314-0cdd-11e2-97d8-0019bb2963f4.html

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Lake detected near equator of Saturn’s Titan

By alkaon on June 14, 2012 No Comments

LOS ANGELES (AP) — In a surprise find, scientists say they have spotted hints of a methane-rich lake and several ponds near the equator of Saturn’s biggest moon.

Lakes were previously spied near Titan’s polar regions. It was long thought that bodies of liquid could not exist at Titan’s midsection because energy from the sun at those latitudes would cause methane pools to evaporate.

“This discovery was completely unexpected because lakes are not stable at tropical latitudes,” said planetary scientist Caitlin Griffith of the University of Arizona, who led the discovery team.

By measuring reflected sunlight from Titan’s surface and atmosphere, the international Cassini spacecraft detected a dark region near the landing site of Huygens, a companion probe that parachuted to Titan’s equator in 2005.

Scientists said further analysis of the dark feature suggests the presence of a 927-square-mile hydrocarbon lake — twice as big as Lake Champlain, a freshwater lake that borders upstate New York and Vermont. Near the equatorial lake were hints of four shallow ponds similar in size and depth to marshes on Earth.

The findings were detailed in Thursday’s issue of the journal Nature.

Titan is among the few bodies in the solar system with a dense atmosphere, but scientists have wrestled over the source of the thick blanket of nitrogen and methane. Methane gas in the atmosphere is constantly broken up by sunlight and falls to the surface where it is transported back to the poles, condensing to form lakes.

Scientists do not think this process is driving the presence of mid-latitude lakes and ponds. Rather, they think there may be an underground source of methane that periodically vents to the surface to form the hydrocarbon bodies of liquid.

“Titan may have oases,” Griffith said.

David Stevenson, a planetary scientist at the California Institute of Technology, said the latest find was interesting, but noted that the evidence was indirect.

If a subterranean source of methane is confirmed, it’s a step toward understanding the persistence of methane in Titan’s atmosphere, said Stevenson, who was not part of the research team.

___

Online:

Journal: http://www.nature.com/nature

___

Follow Alicia Chang’s coverage at http://www.twitter.com/SciWriAlicia

Article source: http://www.chron.com/news/article/Lake-detected-near-equator-of-Saturn-s-Titan-3630595.php

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Sky Shorts: ‘Curiosity’ Rover nears Mars

By alkaon on June 5, 2012 No Comments

Eight years after NASA’s two rovers, Spirit and Opportunity, began their exploration of the Martian plains, a new rover has only three months until it touches down on the Red Planet.

The one-ton Curiosity rover was launched in November and is expected to land on the night of Aug. 5, 85 million miles from Earth at Mars’ Gale Crater. NASA’s
$2.5 billion Mars Science Laboratory’s 10 separate instruments are designed to determine if Gale Crater is capable of supporting microbial life — or has, in the past. The Curiosity mission has been a 10-year process.

MANY, MANY MEGAPIXELS

If all goes well, the Large Synoptic Survey Telescope’s 3.2 billion-pixel camera will take photos of every inch of the visible night sky every week over a 10-year period — after production is begun in 2014.

Known as LSST, the project originally was conceived in 1998 and should gather
6 million gigabytes of data every year. The very fine and detailed images will provide much information about dark energy, dark matter, near-Earth asteroids and the Kuiper belt, along with tracking asteroids that may threaten Earth.

Construction already has begun on the 27.6-foot mirror and on the LSST site atop Cerro Pachón in northern Chile.

AMATEUR ASTRONOMERS TO TARGET ASTEROIDS

NASA has created a new project for citizen scientists. “Target Asteroids!” will employ amateur astronomers to look for near-Earth objects, or NEOs.

NEOs are asteroids with orbits that occasionally bring them close to the Earth.

Scheduled for launch in 2016 is NASA’s Origins Spectral Interpretation Resource Identification Security — Regolith Explorer (OSIRIS-REx) mission is to improve understanding of NEOs. Amateur astronomers will help the NEOs positions, motions, rotations and changes in brightness. This information can then refine theoretical models of asteroids.

ANOTHER BIG TELESCOPE

The University of Arizona’s Steward Observatory Mirror Lab in Tucson will be casting the mirror for the Giant Magellan Telescope (GMT), along with the optics for the LSST mentioned above.

The GMT’s two giant mirrors are still cooling in a furnace beneath Arizona Stadium. When assembled in the Atacama Desert of northern Chile, the GMT will combine light from seven 27-and-one–half-foot mirrors to create a telescope with the collecting surface of a mirror 80 feet in diameter.

Completion of the telescope is at least 10 years away. The University of Arizona is one of 10 international partners in the project. Chile’s clear, dry skies above its desert mountains currently hosts 10 of the 20 largest optical telescopes in the world.

THE SKY IN JUNE

The event for June is on Tuesday when we can follow the dark disk of Venus crossing 11 degrees of the sun’s surface, from about 6:04 p.m. until the sun sets- about 8 p.m. The museum will have local amateur astronomers with specially equipped telescopes set up on the Monument Plaza to view the transit. If you miss this one, you will have to wait 115 years to see the next one.

Telescopes will be set up at 5:30 p.m., and refreshments and solar viewing glasses will be for sale. Don’t observe this event without the correct filters, as you risk blindness from the sun.

Call the Planetarium if you need advice on safe viewing.

Venus, Aldebaran (the eye of Taurus, the Bull) and Jupiter can be seen traveling together below the Pleiades during the last mornings of the month in the east-northeast.

Mars and Saturn rise early, with Mars traveling out of Leo to join Saturn in Virgo by month’s end. The summer solstice occurs June 20, the longest day of the year.

For those who missed the May 20 partial eclipse, see the photo taken right at the beginning of the eclipse (from Dover), where you will notice the Moon just beginning to intrude upon the Sun at 8:31 — right before sunset.

AT THE PLANETARIUM

The Hoover-Price Planetarium is showing “Transits” through July 1. We will discuss the June 5 transit of Venus and the scientific value of studying transits in general.

Shows are Saturdays at 1 p.m. and Sundays at 2 p.m.; 1 p.m. weekday shows begin June 4. Admission to the planetarium is included with admission to the McKinley Presidential Library Museum.

Call 330-455-7043 for more information.

You may email questions directly to the planetarium at hooverpriceplanetarium@hotmail.com. The Hoover-Price Planetarium is located inside the McKinley Presidential Library Museum, 800 McKinley Monument Drive NW in Canton.

Article source: http://www.cantonrep.com/news/x1842808650/Sky-Shorts-Curiosity-Rover-nears-Mars

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Jannuzi taking on 4 jobs in 1 as observatory’s new head

By alkaon on May 8, 2012 No Comments

The University of Arizona conducted three rounds of an international search for the new director of the Steward Observatory before finding Buell Jannuzi right across the street.

Jannuzi, a research astronomer with the National Optical Astronomy Observatory and former director of Kitt Peak National Observatory, will take over from Peter Strittmatter on May 21.

“It’s an unusual job,” said Jannuzi, 49. “I used to joke that it’s really three jobs. It’s actually four, I’m finding out – running telescope facilities, leading the department, running the mirror lab and then the major fundraising.”

Jannuzi said he did not apply for the director’s job in the first two rounds, which chose Matthew Colless, director of the Australian National Observatory; and Timothy Heckman, a professor at Johns Hopkins University. Both men ultimately declined the offers for family reasons.

At that point, said Jannuzi, “several members of the faculty came over and asked me to apply.”

Jannuzi will be able to see his current office at NOAO on Cherry Avenue from the window in what is now Strittmatter’s office.

The two men have been meeting for months to ease the transition.

“The observatory has grown organically to the leviathan it is today, and Peter does run a lot of it out of his head,” said Chris Impey, deputy head of the astronomy department.

“There is a nice transition going on. They are meeting weekly and it’s going fine.”

Jannuzi said he’s been given permission to hire faculty so that he can delegate responsibility. “Peter has four jobs, and I’m only one person,” he said.

Jannuzi earned his undergraduate degree in astronomy and astrophysics at Harvard and his doctoral degree at the UA. He worked at the Institute for Advanced Study in Princeton, N.J., before coming back to Tucson to join NOAO in 1995.

He was director of Kitt Peak for five years until 2010.

“I’m not signing up for 20 years,” said Jannuzi. “It’s hard for me to think of things beyond five years. Peter did, somehow, manage to do it for 37 years.”

Leslie Tolbert, UA vice president for research, said succeeding Strittmatter is a “daunting responsibility” but said Jannuzi’s experience in the “political and professional realm” will come in handy. “He knows our expectation is that we will stay at the top.”

Jannuzi said, “The challenge is to keep what’s there and then do some targeted growth in some new areas the faculty want to work in, to try and do things where multiple groups will benefit.”

The strength of the department and the observatory are its people, he said. “It’s full of people who are passionate about what they are doing and passionate about sharing it with the community, the students of course, but also the community at large.”

In addition to his research on the formation and evolution of galaxies, Jannuzi has led successful efforts to strengthen light-pollution ordinances in Tucson and Pima County and worked against the loosening of billboard regulations at the state level.

Article source: http://azstarnet.com/news/science/jannuzi-taking-on-jobs-in-as-observatory-s-new-head/article_1925aede-12dd-5b92-b58a-5011dceaf3ae.html

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Astronomer Marcia Rieke Elected to National Academy of Sciences

By alkaon on May 3, 2012 No Comments

Marcia J. Rieke, a Regents’ Professor in the University of Arizona’s department of astronomy, was elected to the National Academy of Sciences on May 1.

Election to membership in the academy is considered one of the highest honors a U.S. scientist or engineer can achieve. Rieke will be inducted into the academy next April during its 150th annual meeting in Washington, D.C.

Rieke was elected along with University of Arizona biologist Roy Parker, bringing the number of UA faculty members elected to NAS to 14. There currently are 2,152 active NAS members. Among the NAS’s renowned members are Albert Einstein, Robert Oppenheimer, Thomas Edison, Orville Wright and Alexander Graham Bell. Nearly 200 living academy members have won Nobel Prizes.

“We are delighted that not one, but two of our most outstanding faculty members have been elected to join the National Academy this year,” said UA Senior Vice President for Research Leslie Tolbert. “Roy Parker and Marcia Rieke are stellar scientists who have spent the major parts of their careers right here, and their election to the National Academy is a tremendous honor for the University as well as for them.”

“Both of them work in areas of fundamental science,” Tolbert added. “Their research on fundamental properties of matter and life has shaped how we think about early events in the universe and the ways cells regulate the expression of their genes.”

Rieke joined the UA’s department of astronomy in 1979 after receiving her doctorate in physics at Massachusetts Institute of Technology three years prior.

Rieke has been heralded for the international effort that she has led on the Spitzer space telescope to conduct very deep surveys at far-infrared wavelengths, which will allow astronomers to trace the history of star formation back in time 10 billion years.

Together with her husband, Regents’ Professor George Rieke, she co-authored a paper on the infrared interstellar extinction law — one of the most cited papers in all of astronomy. Many of her most-cited papers on radiation from galactic nuclei and starbursts in colliding galaxies are classics in the field.

Rieke is the principal investigator for the near-infrared camera, or NIRCam, on the James Webb Space Telescope, the largest space telescope ever conceived and scheduled for launch in 2018. NIRCam will study infrared light.

Because the universe is expanding, light from the earliest galaxies have been stretched, or “redshifted,” from visible light into infrared light, which is invisible to the human eye. NIRCam will be able to visualize infrared light, making it essential to examining the early phases of star and galaxy formation, and studying the shapes and colors of distant galaxies. NIRCam will also help astronomers learn the age of stars in nearby galaxies.

Rieke first heard about her nomination from her husband, George, who was elected to the NAS last year.

“During the National Academy membership meeting this morning, George snuck out of the room and called me,” Rieke said. “I’m still in a state of shock. I hope the world recognizes the caliber of the research that is going on here on our campus.”

In the field of astronomical instrumentation, Rieke is perhaps best known internationally for her work on space infrared missions and is the principal investigator for the Near Infrared Camera. The camera will be installed on the next generation of astronomical observatory developed by NASA, the James Webb Space Telescope, and promises to provide the most sensitive view of the early universe ever achieved.

An additional measure of Rieke’s international stature is demonstrated by her service as the vice-chair of program prioritization panel for he Astro2010 NAS Decadal Survey Committee, an exercise in planning mission and facilities for the next 10 years. Billions of dollars in federal investments will be based on her committee’s work, where she helped orchestrate the efforts of hundreds of researchers in the field and judged more than 100 project concepts.

In 2007, Rieke was elected a fellow of the American Academy of Arts and Sciences, joining the ranks of former vice presidents and Supreme Court justices, Nobel and Academy Award winners and prominent executives.

Contact:
Daniel Stolte
University Communications
+1 (520) 626-4402
stolte@email.arizona.edu

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Article source: http://www.spaceref.com/news/viewpr.html?pid=36921

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NASA Image of the day

The Engine Burns Blue

 
This image shows a cutting-edge solar-electric propulsion thruster in development at NASA's Jet Propulsion Laboratory, Pasadena, Calif., that uses xenon ions for propulsion. An earlier version of this solar-electric propulsion engine has been flying on NASA's Dawn mission to the asteroid belt. This engine is being considered as part of the Asteroid Initiative, a proposal to robotically capture a small near-Earth asteroid and redirect it safely to a stable orbit in the Earth-moon system where astronauts can visit and explore it. This image was taken through a porthole in a vacuum chamber at JPL where the ion engine is being tested. Image credit: NASA/JPL-Caltech
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