NASA probe results could improve space weather forecasts

David Ruth
713-348-6327
david@rice.edu

Jade Boyd
713-348-6778
jadeboyd@rice.edu

NASA probe results could improve space weather forecasts

MMS mission delivers promised measurements of ‘magnetic reconnection’

 HOUSTON — (May 12, 2016) — New findings from NASA’s orbiting Magnetospheric Multiscale (MMS) mission could help Rice University physicists and their colleagues better predict “space weather,” magnetic storms high above Earth that can damage satellites and terrestrial power grids.

This image from an upcoming planetarium show on magnetism and the MMS mission depicts MMS spacecraft entering Earth’s dipolar magnetic field. (Image courtesy of HomeRun Pictures for Rice University magnetism movie)

“Space weather is driven by the interactions between the solar wind and Earth’s magnetic field, and one of the most important of these interactions is ‘magnetic reconnection,’ a fundamental process that occurs when magnetic fields interact with plasmas,” said Rice University physicist Patricia Reiff, co-author of a new paper about MMS results that’s available online this week from the journal Science.

For Reiff and her MMS colleagues, including mission principal investigator and Rice alumnus James Burch, vice president of Southwest Research Institute in San Antonio, this week’s results are the culmination of a process that began with the initial idea for MMS more than 25 years ago.

Reiff said MMS, a collection of four identical spacecraft that orbit in a pyramid-shaped formation about 6 miles wide, is specifically designed to study region of space tens of thousands of miles above Earth’s surface that is a prime location for magnetic reconnection. This region, known as the “magnetopause,” is where the solar wind — a plasma of positive ions and negative electrons that stream continuously outward from the sun — comes in contact with Earth’s magnetosphere, the region of space dominated by Earth’s magnetic field.

Patricia Reiff

“Magnetic reconnection is a fundamental process that’s responsible for the aurora borealis and australis and space storms here on Earth, as well as for solar flares on our own sun and analogous stellar flares elsewhere in the universe,” said Reiff, a professor of physics and astronomy at Rice who began studying Earth’s magnetosphere more than 45 years ago with instruments left on the moon by Apollo astronauts.

“When two magnets come together, reconnection is the process whereby the magnetic field rearranges itself to link the north pole of one magnet with the south pole of the other,” she said.

Reconnection occurs when the two magnets are not exactly co-aligned. If reconnection occurs in a vacuum or an electrically non-conducting medium like Earth’s lower atmosphere, the process occurs at the speed of light and has no effect on the surrounding medium.

But each medium of space measured by MMS — the solar wind and the magnetosphere — contain a fully ionized plasma that is an excellent electrical conductor. The plasma’s negatively charged electrons and positively charged ions orbit in opposite directions about a given magnetic field line.

The MMS mission’s four spacecraft stacked and ready for encapsulation in the launch nose cone at Kennedy Space Center. (Photo courtesy of NASA KSC)

“When the field lines of two different magnetic fields meet in space — as they do at the magnetopause — and try to reconnect, these gyrating particles initially resist,” Reiff said. “Each field line tends to retain its own distinct set of orbiting charged particles. Reconnection occurs when the field lines draw nearer one another than the distance of the ions or electrons orbiting them, and when it occurs, the energy released by the merger is transferred to the particles, which accelerate rapidly, sometimes at nearly light speed.”

This critical distance, known as the diffusion region, is considerably larger for ions than it is for electrons, and MMS is the first spacecraft designed to probe the much smaller “electron diffusion region” where the electrons become decoupled and reconnection actually occurs. The MMS plasma instruments are much faster than any previously deployed to measure the magnetosphere, and are thus designed to catch reconnection “in the act” on its most microscopic scale.

Reiff said physicists have built theoretical pictures of the particle interactions that occur in reconnection, but such theories cannot be tested in terrestial laboratores. The new results from MMS offer the first direct physical evidence of what happens to individual electrons when reconnection occurs.

The initial results confirm many of the theoretical predictions related to reconnection and provide physicists with a much clearer picture of the processes that are involved at the single-particle level. She said the results will help scientists refine the computer simulations that attempt to model and predict space storms, and will also help astrophysicists better understand processes that occur during the birth and death of stars.

“Our results may also be useful to physicists who are trying to harness nuclear fusion power — the same process that occurs at the center of the sun — as a source of clean energy on Earth,” Reiff said. “Reconnection is a major obstacle in fusion research laboratories because the magnetic fields that physicists use to try to confine hot plasma tend to reconnect in unpredictable ways and allow the plasma to escape the confinement device.”

Reiff, an award-winning science educator, is working with colleagues at the Houston Museum of Natural Science, HomeRun Pictures and Evans and Sutherland to create a planetarium show explaining the mysteries of magnetism. She also helps maintain a website for real-time space-weather forecasting at http://mms.rice.edu/realtime/forecast.html.

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Additional information about MMS is available at:
http://www.nasa.gov/content/mission_pages/mms/movie-on-the-mms-mission
http://mms.gsfc.nasa.gov/
http://mms.rice.edu

VIDEO is available at:

MMS Science Overview: The Many Mysteries of MMS
https://youtu.be/Wd2d3pNS7nM

ScienceCasts: Studying Earth’s Magnetic Personality
https://youtu.be/BGh1xc-O0WA

http://mms.rice.edu/MMS/media/video/MMS_HD720.mp4
(Image courtesy of HomeRun Pictures for Rice University magnetism movie)

High-resolution IMAGES are available for download at:

http://mms.rice.edu/MMS/media/MMS_Spacecraft_Views_large/MMS_BeautyShot.jpg
CAPTION: This image from an upcoming planetarium show on magnetism and the MMS mission depicts MMS spacecraft entering Earth’s dipolar magnetic field. (Image courtesy of HomeRun Pictures for Rice University magnetism movie)

http://news.rice.edu/files/2016/05/0512_REIFF-mms-asmbly-lg-1aprkh1.jpg
CAPTION: The MMS mission’s four spacecraft stacked and ready for encapsulation in the launch nose cone. (Photo by NASA KSC).

http://space.rice.edu/reiff/reiff_1200.jpg
CAPTION: Patricia Reiff (Photo by Colin Law)

The DOI of the Science First Release paper is:
10.1126/science.aaf2939

A copy of the Science First Release paper is available at:
http://science.sciencemag.org/content/early/2016/05/10/science.aaf2939

Related space magnetism research from Rice:

A long road to a perfect launch — April 3, 2015
http://news.rice.edu/2015/04/03/the-way-i-see-it-a-long-road-to-a-perfect-launch/

Rice lands grant to explore exoplanet magnetic fields — Sept. 14, 2015
http://news.rice.edu/2015/09/14/rice-lands-grant-to-explore-exoplanet-magnetic-fields/

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