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Primeur weekly 2012-06-11

The Cloud

Bangalore-based bank chooses IBM Cloud for core banking solutions ...

Oracle unveils industry's broadest Cloud strategy ...

HP expands Converged Cloud portfolio ...

Dell Boomi eases Cloud integration with Summer 12 release and industry's first crowd-sourced regression testing ...

IBM expands collaborative software development solutions to Cloud and mobile technologies ...

EuroFlash

Still time to save on ISC'12 registration - Register online by June 16 ...

New UK supercomputer to perform astronomical feats ...

New supercomputer at University of Salzburg ...

HP helps Nuffield Health deliver high-quality patient care ...

USFlash

Bart Geerts hopes to answer mysteries of cloud seeding through supercomputing model ...

University of Wyoming's Ogden to create computer model of upper Colorado River basin's hydrology ...

University of Wyoming's Wang focuses on optimizing supercomputer, improving reliability of high-performance computers ...

University of Wyoming's Chen to use supercomputer to model seismic events to improve warning system ...

University of Wyoming's Mavriplis goes with the flow when researching aerodynamic designs in computer models ...

Jang-Condell's research focuses on planet formation in solar system, around stars ...

Kobe University to deploy Fujitsu PRIMEHPC FX10 supercomputer as computing system for information sciences ...

Fujitsu to participate in the "RIO+20" United Nations Conference on Sustainable Development ...

HP unleashes the power of Big Data ...

HP achieves record backup performance of 100 TB/hour with HP StoreOnce ...

IBM boosts Smarter Computing initiative to help customers tackle Big Data ...

SDSC supercharges its Data Oasis storage system ...

Nuclear weapon simulations show performance in molecular detail ...

Rensselaer Supercomputing Center Director to speak on future of American Manufacturing at Clinton Global Initiative Meeting in Chicago ...

GNS Healthcare expands membership at Rensselaer Polytechnic Institute Supercomputing Center to advance Big Data health care solutions ...

Research helps quantum computers move closer ...

Cook County Court brings order, enhances customer service with HP Thin Clients ...

451 Research announces additions to its analyst team and key promotions ...

HP powers Madagascar 3: Europe's Most Wanted ...

Oracle achieves world record result on SAP for Utilities standard application benchmark ...

Jang-Condell's research focuses on planet formation in solar system, around stars

7 Jun 2012 Laramie - Hannah Jang-Condell was not one of those kids who gazed at the stars and dreamed of one day becoming an astromer. It was not even until her senior year at Harvard that she took a modern astrophysics course.

"It made me realize there are so many open questions in astronomy. There were not as many open questions in physics", stated the University of Wyoming (UW) assistant professor of physics and astronomy. "Astronomy is where I felt I could make my mark. We were discovering all of these exo-planets and their orbits. These exo-planets, which are planets that orbit around other stars (in a solar system other than that of Earth), range in size from a bit larger than Earth to as much as 10 times the size of Jupiter."

Hannah Jang-Condell's computational astrophysics research focuses on the theoretical study of the origins of planet formation in our solar system and those around other stars. Specifically, her research investigates how planets form as a byproduct of the creation of stars.

"My group is the first to combine the dynamics of gas flow with heating from the central star", Hannah Jang-Condell stated. "I study the motion of gas in disks, and how it responds to the planet being in the disks. The disk is heated up by stellar illumination, a process in which a star shines on a disk and heats it up."

Our solar system formed from a disk, which is essentially made of materials left over after the formation of the sun, she said. In essence, there is a star at the centre of the system and clouds of gas located around the star.

One theory, called core accretion, purports that small planets, such as Earth, form from dust in the disk. The dust collides to form pebbles, which become larger and larger, and eventually form giant planets.

The second theory is called disk instability. In this theory, massive and cold disks gravitationally fragment, forming a clump. The clump collapses into a planet. While the planet is forming, it is orbiting within the disk.

In either case, the planet eventually becomes massive enough to clear a gap in the disk. If the disk is heated by starlight, a shadow will form in the disk's gap. The shadow will cool while the far side of the disk will heat up and expand by illumination.

"These differences in the temperature structure of the disk can limit how fast a planet can grow. These are effects I am trying to model", Hannah Jang-Condell stated. "How fast is a gap opened? If you have shadow effects, how does it affect the future growth of the planet? After the gas disk phase, planets can scatter off of each other. Properly modelling these disks can be quite computationally intensive, since one needs to take into account the dynamics of the disk material, the composition of the disk, the heating of the disk by stellar irradiation and viscous forces", she stated. "And then we have to understand how all these properties change as planets interact with the disk."

For her research, Hannah Jang-Condell is studying planets located in the 5-10 AU range. The 5-10 AU range means planets that are located five to 10 times as far from the sun as Earth. These include planets ranging in mass from Neptune to Saturn, she said. "Our best theories have planets forming in that (5-10 AU) range", she stated. "We're studying smaller planets. We're studying the interactions of planets and disks. Computational time goes into modelling physics."

NASA has provided $300,000 over three years to fund Hannah Jang-Condell's research.

Desktop computers are good for conducting test simulations, but creating a full-scale computational model will require use of the NCAR-Wyoming Supercomputing Center (NWSC), Hannah Jang-Condell said. She said she submitted a proposal for use of 7.8 million core hours on Yellowstone in Cheyenne.

The idea is to use the computational models to understand the significance of starlight and shadow effects are on disks. "We can actually image disks around young stars and see gap-forming events", Hannah Jang-

Condell stated. "We can compare these images with outputs of simulations and see where planets are forming in the disks."

Predicting the age of disks is complicated, she said, comparing it to predicting a child's age based on height. Such a correlation doesn't always provide a direct measurement.

"When you measure a child's height, it gives us an indication of how old they are. But you can have a tall 3-year-old and a short 7-year-old. Height can be one indicator", Hannah Jang-Condell stated. "If you identify a star as part of a cluster of stars (as opposed to one), you can get better statistics on age. In general, getting the age of stars is difficult. The star disk systems I'm looking at are around 1 million years old, which is considered young."

Hannah Jang-Condell said she believes in the possibility of life on other planets. She points to continuous discoveries of new life forms on Earth - in regions as remote as Antarctica and at the bottom of the oceans - that no one thought previously existed.

"My opinion is, wherever life takes hold, it adapts and survives. I do think that, anywhere there's a planet that can sustain liquid water on its surface, it is going to have life", stated Hannah Jang-Condell, who suggested Mars and Europa may contain microscopic life. "This is my opinion. It has not been confirmed by observation. We are able to detect Jupiter-like planets around other stars, but Earth-like planets are hard to detect."

"Humans are naturally curious about from where we come. Are we alone in the universe?" Hannah Jang-Condell stated. "By understanding how planets form, we can begin to understand how common other planets are like Earth. Are there other life forms? Are there others we can contact? We are asking some of the most existential questions humans have."

Hannah Jang-Condell said she will transition from her theoretical research approach to a more observational endeavour this summer. That's when she will work with a graduate student at the Wyoming Infrared Observatory (WIRO). "We have our own 2.4-meter telescope there", she stated. "Even though I'm a theorist, I am starting a project to detect the atmospheres of exo-planets."

Source: University of Wyoming

Back to Table of contents

Primeur weekly 2012-06-11

The Cloud

Bangalore-based bank chooses IBM Cloud for core banking solutions ...

Oracle unveils industry's broadest Cloud strategy ...

HP expands Converged Cloud portfolio ...

Dell Boomi eases Cloud integration with Summer 12 release and industry's first crowd-sourced regression testing ...

IBM expands collaborative software development solutions to Cloud and mobile technologies ...

EuroFlash

Still time to save on ISC'12 registration - Register online by June 16 ...

New UK supercomputer to perform astronomical feats ...

New supercomputer at University of Salzburg ...

HP helps Nuffield Health deliver high-quality patient care ...

USFlash

Bart Geerts hopes to answer mysteries of cloud seeding through supercomputing model ...

University of Wyoming's Ogden to create computer model of upper Colorado River basin's hydrology ...

University of Wyoming's Wang focuses on optimizing supercomputer, improving reliability of high-performance computers ...

University of Wyoming's Chen to use supercomputer to model seismic events to improve warning system ...

University of Wyoming's Mavriplis goes with the flow when researching aerodynamic designs in computer models ...

Jang-Condell's research focuses on planet formation in solar system, around stars ...

Kobe University to deploy Fujitsu PRIMEHPC FX10 supercomputer as computing system for information sciences ...

Fujitsu to participate in the "RIO+20" United Nations Conference on Sustainable Development ...

HP unleashes the power of Big Data ...

HP achieves record backup performance of 100 TB/hour with HP StoreOnce ...

IBM boosts Smarter Computing initiative to help customers tackle Big Data ...

SDSC supercharges its Data Oasis storage system ...

Nuclear weapon simulations show performance in molecular detail ...

Rensselaer Supercomputing Center Director to speak on future of American Manufacturing at Clinton Global Initiative Meeting in Chicago ...

GNS Healthcare expands membership at Rensselaer Polytechnic Institute Supercomputing Center to advance Big Data health care solutions ...

Research helps quantum computers move closer ...

Cook County Court brings order, enhances customer service with HP Thin Clients ...

451 Research announces additions to its analyst team and key promotions ...

HP powers Madagascar 3: Europe's Most Wanted ...

Oracle achieves world record result on SAP for Utilities standard application benchmark ...