August 31, 2024 report
Data from space probes show that Alfv茅n waves drive the acceleration and heating of the solar wind
By studying data from NASA's Parker Solar Probe and the ESA Solar Orbiter, an international team of astrophysicists has found that Alfv茅n waves drive the acceleration and heating of the solar wind.
In their , published in the journal Science, the group compared data from the two space probes to learn more about energy sources impacting the solar wind.
Luca Sorriso-Valvo and Francesco Malara, with the CNR鈥揑nstitute for Plasma Science and Technology, in Sweden, and the University of Calabria, in Italy, respectively, have published a in the same journal issue outlining the work done by the group.
Prior research has shown that as the solar wind moves from the sun's corona, it cools, but also accelerates. Prior research has also shown that the cooling does not occur as quickly as it should due to free expansion鈥攁 finding that suggests an additional heat source. Some researchers have suggested the heat source likely comes from Alfv茅n waves鈥攁 type of electromagnetic plasma wave. In this new effort, the researchers found evidence to back up this theory.
To find out if Alfv茅n waves are responsible for the acceleration and heat contribution to the solar wind, the research team compared data from NASA's Parker Solar Probe and the ESA Solar Orbiter during an opportune moment of alignment in their travels.
During this period, the solar wind struck the second probe 40 hours after striking the first, giving the researchers an opportunity to measure energy differences. They found large-amplitude Alfv茅n waves pushing on the solar wind, forcing a change in direction. Measurements from the second probe showed no evidence of such force. They also showed that the solar wind had grown warmer.
In calculating the amount of energy lost by the Alfv茅n waves, the researchers found it matched the energy required to heat the solar wind and to speed it up in a way that matched observations from the second probe.
The research team suggests their observations and calculations present a strong case for Alfv茅n waves as the driver behind the acceleration and heating of the solar wind.
More information: Yeimy J. Rivera et al, In situ observations of large-amplitude Alfv茅n waves heating and accelerating the solar wind, Science (2024).
Luca Sorriso-Valvo et al, Interplanetary rendezvous at a solar wind stream, Science (2024).
Journal information: Science
漏 2024 Science X Network
