草榴社区

Dr. Haihong Che is modeling the release of magnetic energy from solar flares聽that distributes hot positive and negative charged particles.

Michael Mercier | UAH

A solar physicist at 草榴社区 (UAH) has been awarded a five-year, $616,000 National Science Foundation CAREER award to study how solar flares explosively release magnetic energy and create energetic particles.

鈥淲hat happens when these energetic particles escape from the solar corona, enter space and travel to the Earth?鈥� asks award recipient Dr. Haihong Che, an assistant professor in the Department of Space science at UAH, a part of the University of Alabama System, who will be doing her research at the university鈥檚 Center for Space Plasma and Aeronomic Research (CSPAR).

The outermost atmosphere of the sun is super-hot at around 3 million degrees Fahrenheit, she explains. Under such high temperature, the gas is ionized and becomes hot plasma that鈥檚 composed of hot positive and negative charged particles.

鈥淭hese hot charged particles are confined by the gravity and magnetic field of the sun and form the corona, but because the corona is turbulent and unstable, explosive events called solar flares聽at different spatial scales occur at each moment, and the release of magnetic energy leads to the production of a huge number of energetic particles,鈥� says Dr. Che.

鈥淭hese energetic particles can escape from the solar corona and propagate into space with a speed close to the speed of light,鈥� she says. A decent-sized fraction of these energetic particles travel to Earth.

鈥ㄢ�淭he sudden increase of聽cosmic ray intensity can endanger life and affect human activities in space, such as astronauts in the international space station and聽spacecraft,鈥� Dr. Che says. 鈥淭hat's why the study of solar flares and energetic particles is important to us.鈥�

Under the new grant, a novel electron acceleration mechanism that Dr. Che has been working on will be extended to ions, and researchers will build a solid physical foundation for the new mechanism.

Dr. Che鈥檚 team includes Dr. Bofeng Tang, a CSPAR postdoctoral researcher, and Space Science graduate students Chris Crawford, Atit Deuja and Rubaiya Shikha. Their research will rely on big data super-computation through NASA鈥檚 High-End Computing Program at the NASA Advanced Supercomputing Division at Ames Research Center in California. It will also utilize data from NASA鈥檚 Parker Solar Probe to test the model.

鈥ㄢ�淒uring solar flares, energetic particles can produce multi-band emissions in the corona, and we can obtain the particle energy distribution and聽information about the magnetic field through the observation of the emissions,鈥� she says. 鈥淲ith this information, we can test our model and investigate the dynamic process of solar flares to further advance our understanding of solar activities.鈥�

The processes are essential for the sun to generate heat, so modeling them is fundamental to informing the evolving field of solar weather prediction, Dr. Che says.

鈥淎lso, since the sun is a natural controlled fusion process, understanding how the sun confines the plasma and releases the energy can inform research into human-made plasma fusion reactors to produce clean energy.鈥�