Evolving Energy of a Solar Flare's Explosive First Minutes Captured With New Radio Telescope
By NEW JERSEY INSTITUTE OF TECHNOLOGY JANUARY 17, 2020
Credit: New Jersey Institute of Technology
Toward the end of 2017, a massive new region of magnetic field erupted on the Suns surface next to an existing sunspot. The powerful collision of magnetic energy produced a series of potent solar flares, causing turbulent space weather conditions at Earth. These were the first flares to be captured, in their moment-by-moment progression, by NJITs then recently opened Expanded Owens Valley Solar Array (EOVSA) radio telescope.
In research published today(January 17, 2020) in the journal Science, the solar scientists who recorded those images have pinpointed for the first time ever exactly when and where the explosion released the energy that heated spewing plasma to energies equivalent to 1 billion degrees in temperature.
With data collected in the microwave spectrum, they have been able to provide quantitative measurements of the evolving magnetic field strength directly following the flares ignition and have tracked its conversion into other energy forms kinetic, thermal and superthermal that power the flares explosive 5-minute trip through the corona.
To date, these changes in the coronas magnetic field during a flare or other large-scale eruption have been quantified only indirectly, from extrapolations, for example, of the magnetic field measured at the photospherethe surface layer of the Sun seen in white light. These extrapolations do not permit precise measurements of the dynamic local changes of the magnetic field in the locations and at time scales short enough to characterize the flares energy release.
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