Yao, X.; Muñoz, P. A.; Büchner, J.: Non-thermal electron velocity distribution functions due to 3D kinetic magnetic reconnection for solar coronal plasma conditions. Physics of Plasmas 29, p. 022104 (2022)
Yao, X.; Muñoz, P. A.; Büchner, J.; Benáček, J.; Liu, S.; Zhou, X.: Wave Emission of Nonthermal Electron Beams Generated by Magnetic Reconnection. The Astrophysical Journal 933, p. 219 (2022)
Yao, X.; Muñoz, P. A.; Büchner, J.; Zhou, X.; Liu, S.: The effects of density inhomogeneities on the radio wave emission in electron beam plasmas. Journal of Plasma Physics 87 (2), 905870203 (2021)
Zhou, X.; Munoz, P. A.; Büchner, J.; Liu, S.; Yao, X.: Wave Excitation by Power-law-Distributed Energetic Electrons with Pitch-angle Anisotropy in the Solar Corona. The Astrophysical Journal 920 (2), 147 (2021)
Images from ESA’s Solar Orbiter offer the best look yet at a source region of the solar wind - and challenge our view of the continuous particle stream from the Sun.
Deciphering the magnetic origins of the Sun's hot corona: developing a framework for coronal heating by probing the elusive photosphere-corona connection
Using unique observational data and computer simulations, the MPS scientist is striving to understand the incredibly hot temperatures in the solar corona.
For the first time, images of the Sun have been taken from a distance of only 77 million kilometres enabling a completely new view of our star possible.
In his doctoral thesis, Sudip Mandal investigated how special pressure waves help maintain temperatures of several million degrees in the outermost solar atmosphere.