Attie, R.; Innes, D. E.; Solanki, S. K.; Glassmeier, K.-H.: Relationship between supergranulation flows, magnetic cancellation and network flares. Astronomy and Astrophysics 596, A15 (2016)
Yousefzadeh, M.; Safari, H.; Attie, R.; Alipour, N.: Motion and Magnetic Flux Changes of Coronal Bright Points Relative to Supergranular Cell Boundaries. Solar Physics 291, pp. 29 - 39 (2015)
Attie, R.; Innes, D. E.; Potts, H. E.: Evidence of photospheric vortex flows at supergranular junctions observed by FG/SOT (Hinode). Astronomy and Astrophysics 493 (2), pp. L13 - L16 (2009)
Innes, D. E.; Genetelli, A.; Attie, R.; Potts, H. E.: Quiet Sun mini-coronal mass ejections activated by supergranular flows. Astronomy and Astrophysics 495, p. 319 (2009)
Innes, D. E.; Attie, R.; Hara, H.; Madjarska, M. S.: EIS/ Hinode Observations of Doppler Flow Seen through the 40-Arcsec Wide-Slit. Solar Physics 252, pp. 283 - 292 (2008)
Attie, R.; Innes, D. E.: Explosive Event in the Quiet Sun Seen by XRT-EIS and SUMER. In: First Results From Hinode, p. 155 (Eds. Matthews, S. A.; Davis, J. M.; Harra, L. K.). Astronomical Society of the Pacific, San Francisco (2008)
Attie, R.: The relationship between supergranulation flows, magnetic field evolution and network flares. Dissertation, Tech. Univ. Braunschweig, Braunschweig, Braunschweig (2015)
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.