In a new study we found that solar wind impulses excite surface waves on the boundary of the magnetosphere that surprisingly "go against the flow", forming a stationary wave that persists longer than expected. Here's a video hosted on @NASAgovVideo of the simulations we used and you can find out more at: www.nasa.gov/feature/goddard/2021/themis-researche…
Martin Archer
In a new study we found that solar wind impulses excite surface waves on the boundary of the magnetosphere that surprisingly "go against the flow", forming a stationary wave that persists longer than expected. Here's a video hosted on @NASAgovVideo of the simulations we used and you can find out more at: www.nasa.gov/feature/goddard/2021/themis-researche…
4 years ago | [YT] | 0