Tuesday, 12 March 2013

Space weather research to look at energy distribution

Space weather research to look at energy distribution [ Back to EurekAlert! ] Public release date: 11-Mar-2013
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Contact: Traci Peterson
817-272-9208
University of Texas at Arlington

A University of Texas at Arlington physicist has been awarded more than $400,000 in NASA funding to develop a 3D look at how electrodynamic energy from solar winds enters and moves throughout the Earth's upper atmosphere.

Yue Deng, an assistant physics professor, aims to help scientists and engineers protect satellites, power distribution systems and other vital infrastructure from the potentially harmful effects of these inevitable bursts of energy.

Understanding interaction between the Earth's magnetic field, or magnetosphere, and its upper atmosphere known as the thermosphere/ionosphere is especially important this year and in 2014, Deng said. That's when the Sun is predicted to reach a time of heightened activity or its "solar max."

"Right now, estimation of the amount of energy entering the Earth's thermosphere is not very precise and can be underestimated by 100 percent. We know even less about how that energy is distributed," Deng said. "This information is critical because if you put the same amount of energy at 400 kilometers the impact can be 100 times larger than if you put it at 100 kilometers." Deng received a $408,000, three-year award from NASA's heliophysics division in January. She is co-developer of a new 3-D Global Ionosphere-Thermosphere

Model, or GITM. Deng also is the 2010 recipient of a National Science Foundation Early Career Development or CAREER award.

"Dr. Deng is a young professor who is already making a valuable contribution to her field, and the NASA award recognizes that," said Pamela Jansma, dean of the UT Arlington College of Science. "By helping the physics community better understand the role that space weather phenomenon has on Earth, she is creating a vital new tool."

Co-investigators on the new NASA grant include Arthur Richmond, a senior scientist at the High Altitude Observatory of The National Center for Atmospheric Research (NCAR), and Delores Knipp, a visiting professor at the University of Colorado at Boulder.

Solar wind is plasma from the Sun that travels through space at about 400 kilometers per second carrying with it a magnetic field. Usually, the Earth's magnetic field protects it from this plasma radiation. Solar flares and other activity on the Sun's surface can increase the energy traveling toward Earth, with some of the radiation passing through the magnetosphere at the Earth's magnetic poles.

Energy entering the thermosphere/ionosphere after a solar storm can wreak havoc on scientists' ability to track the satellites that orbit the Earth in that region, anywhere from about 100 to 500 kilometers above the ground.

Energy bursts from solar flares, coronal mass ejections and similar phenomenon can also disrupt energy distribution systems on Earth, communication technology and affect airline activity. Efforts like the NOAA/NWS Space Weather Prediction Center have been established to give warnings about upcoming disturbances, so scientists can protect equipment and minimize the damage. But, better information is needed, Deng said.

Deng said the grant team plans to integrate information from several different scientific models and the COSMIC satellite program. They will create a more comprehensive model of how conductivity is distributed through altitudes. The research also will explore the role that Joule heating, or friction heating, and charged particles in the ionosphere play in energy distribution. COSMIC is a joint Taiwan/United States science mission for weather, climate, space weather and geodetic research that is entering its sixth year.

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The University of Texas at Arlington is a comprehensive research institution of more than 33,800 students and more than 2,200 faculty members in the heart of North Texas. Visit http://www.uta.edu to learn more.


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Space weather research to look at energy distribution [ Back to EurekAlert! ] Public release date: 11-Mar-2013
[ | E-mail | Share Share ]

Contact: Traci Peterson
817-272-9208
University of Texas at Arlington

A University of Texas at Arlington physicist has been awarded more than $400,000 in NASA funding to develop a 3D look at how electrodynamic energy from solar winds enters and moves throughout the Earth's upper atmosphere.

Yue Deng, an assistant physics professor, aims to help scientists and engineers protect satellites, power distribution systems and other vital infrastructure from the potentially harmful effects of these inevitable bursts of energy.

Understanding interaction between the Earth's magnetic field, or magnetosphere, and its upper atmosphere known as the thermosphere/ionosphere is especially important this year and in 2014, Deng said. That's when the Sun is predicted to reach a time of heightened activity or its "solar max."

"Right now, estimation of the amount of energy entering the Earth's thermosphere is not very precise and can be underestimated by 100 percent. We know even less about how that energy is distributed," Deng said. "This information is critical because if you put the same amount of energy at 400 kilometers the impact can be 100 times larger than if you put it at 100 kilometers." Deng received a $408,000, three-year award from NASA's heliophysics division in January. She is co-developer of a new 3-D Global Ionosphere-Thermosphere

Model, or GITM. Deng also is the 2010 recipient of a National Science Foundation Early Career Development or CAREER award.

"Dr. Deng is a young professor who is already making a valuable contribution to her field, and the NASA award recognizes that," said Pamela Jansma, dean of the UT Arlington College of Science. "By helping the physics community better understand the role that space weather phenomenon has on Earth, she is creating a vital new tool."

Co-investigators on the new NASA grant include Arthur Richmond, a senior scientist at the High Altitude Observatory of The National Center for Atmospheric Research (NCAR), and Delores Knipp, a visiting professor at the University of Colorado at Boulder.

Solar wind is plasma from the Sun that travels through space at about 400 kilometers per second carrying with it a magnetic field. Usually, the Earth's magnetic field protects it from this plasma radiation. Solar flares and other activity on the Sun's surface can increase the energy traveling toward Earth, with some of the radiation passing through the magnetosphere at the Earth's magnetic poles.

Energy entering the thermosphere/ionosphere after a solar storm can wreak havoc on scientists' ability to track the satellites that orbit the Earth in that region, anywhere from about 100 to 500 kilometers above the ground.

Energy bursts from solar flares, coronal mass ejections and similar phenomenon can also disrupt energy distribution systems on Earth, communication technology and affect airline activity. Efforts like the NOAA/NWS Space Weather Prediction Center have been established to give warnings about upcoming disturbances, so scientists can protect equipment and minimize the damage. But, better information is needed, Deng said.

Deng said the grant team plans to integrate information from several different scientific models and the COSMIC satellite program. They will create a more comprehensive model of how conductivity is distributed through altitudes. The research also will explore the role that Joule heating, or friction heating, and charged particles in the ionosphere play in energy distribution. COSMIC is a joint Taiwan/United States science mission for weather, climate, space weather and geodetic research that is entering its sixth year.

###

The University of Texas at Arlington is a comprehensive research institution of more than 33,800 students and more than 2,200 faculty members in the heart of North Texas. Visit http://www.uta.edu to learn more.


[ Back to EurekAlert! ] [ | E-mail | Share Share ]

?


AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.


Source: http://www.eurekalert.org/pub_releases/2013-03/uota-swr031113.php

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