Tian, H.; Marsch, E.; Tu, C.; Curdt, W.; He, J.: New views on the emission and structure of the solar transition region. New Astron. Rev. 54, S. 13 - 30 (2010)
Tian, H.; Tu, C.-Y.; Xia, L.-D.; He, J.-S.: Radiance and Doppler shift distributions across the network of the quiet Sun. Astronomy and Astrophysics 489 (3), S. 1297 - 1306 (2008)
Tu, C.-Y.; Marsch, E.: Anisotropy regulation and plateau formation through pitch-angle diffusion of solar wind protons in resonance with cyclotron waves. Journal Geophysical Research 107 (A9), 1249 (2002)
Tu, C.-Y.; Wang, L.-H.; Marsch, E.: Formation of the proton beam distribution in high-speed solar wind. Journal Geophysical Research 107 (A10), 1291 (2002)
Marsch, E.; Tu, C.-Y.: Heating and acceleration of coronal ions interacting with plasma waves through cyclotron and Landau resonance. Journal Geophysical Research 106, S. 227 - 238 (2001)
Marsch, E.; Tu, C.-Y.: Evidence for pitch angle diffusion of solar wind protons in resonance with cyclotron waves. Journal Geophysical Research 106, S. 8357 - 8361 (2001)
Tu, C.-Y.; Marsch, E.: On cyclotron wave heating and acceleration of solar wind ions in the outer corona. Journal Geophysical Research 106, S. 8233 - 8252 (2001)
Marsch, E.; Tu, C.-Y.; Wilhelm, K.: Hydrogen temperature gradient in the transition region of a solar coronal hole. Astronomy and Astrophysics 359, S. 381 - 385 (2000)
Marsch, E.; Tu, C.-Y.; Heinzel, P.; Wilhelm, K.; Curdt, W.: Proton and hydrogen temperatures at the base of the solar polar corona. Astronomy and Astrophysics 347, S. 676 - 683 (1999)
Tu, C.-Y.; Marsch, E.; Wilhelm, K.; Curdt, W.: Ion temperatures in a solar coronal hole observed by SUMER on SOHO. Astrophysical Journal 503, S. 475 - 482 (1998)
Marsch, E.; Tu, C.-Y.: The effects of high-frequency Alfvén waves on coronal heating and solar wind acceleration. Astronomy and Astrophysics 319, S. L17 - L20 (1997)
Marsch, E.; Tu, C.-Y.: Intermittency, non-Gaussian statistics and fractal scaling of MHD fluctuations in the solar wind. Nonlinear Processes in Geophysics 4, S. 101 - 124 (1997)
Tu, C.-Y.; Marsch, E.: Two-fluid model for heating of the solar corona and acceleration of the solar wind by high-frequency Alfvén waves. Solar Physics 171, S. 363 - 391 (1997)
Tu, C.-Y.; Marsch, E.; Ivory, K.; Schwenn, R.: Pressure enhancement associated with meridional flow in high-speed solar wind: Possible evidence for an interplanetary magnetic flux rope. Annales Geophysicae 15 (2), S. 137 - 142 (1997)
Marsch, E.; Tu, C.-Y.: Spatial evolution of the magnetic field spectral exponent in the solar wind: Helios and Ulysses comparison. Journal Geophysical Research 101, S. 11149 - 11152 (1996)
Marsch, E.; Tu, C.-Y.; Rosenbauer, H.: Multifractal scaling of the kinetic energy flux in solar wind turbulence. Annales Geophysicae 14 (3), S. 259 - 269 (1996)
Tu, C.-Y.; Marsch, E.; Rosenbauer, H.: An extended structure-function model and its application to the analysis of solar wind intermittency properties. Annales Geophysicae 14 (3), S. 270 - 285 (1996)
First Light für Sunrise III: Die ersten Tests mit Sonnenlicht waren erfolgreich. Ende Mai dürfte das ballongetragene Sonnenobservatorium startklar sein.
Erst eisige Kälte, dann Mitternachtssonne: Am Polarkreis bereitet das Team den Flug des ballongetragenen Sonnenobservatoriums vor – und hofft auf ein solares Feuerwerk.
Bewerbungsfrist 1 Oktober 2023. Promotionsprojekte in Planetenwissenschaften, Sonnenphysik, Astrophysik, Magnetfelder der Sonne, Helioseismologie, Asteroseismologie ...
In der mittleren Korona der Sonne entdeckt ein Forscherteam netzartige, dynamische Plasmastrukturen – und einen wichtigen Hinweis auf den Antrieb des Sonnenwindes.