Liu, C. H.; Klostermeyer, J.; Yeh, K. C.; Jones, T. B.; Robinson, T.; Holt, O.; Leitinger, R.; Ogawa, T.; Sinno, K.; Kato, S.et al.; Ogawa, T.; Bedard, A. J.; Kersley, L.: Global Dynamic Response of the Atmosphere to the Eruption of Mount St. Helens on May 18, 1980. Journal Geophysical Research 87, pp. 6281 - 6290 (1982)
Weber, G.; Rüster, R.; Klostermeyer, J.: VHF-Radarbeobachtungen von Frontenpassagen im Voralpengebiet. Annalen der Meteorologie 19, pp. 99 - 101 (1982)
Klostermeyer, J.: Effects of wave-induced eddy dissipation on gravity waves and Kelvin-Helmholtz instabilities. Handbook for MAP 2, pp. 351 - 359 (1981)
Klostermeyer, J.; Rüster, R.: Further Study of a Jet Stream-Generated Kelvin-Helmholtz-Instability. Journal Geophysical Research 86, pp. 6631 - 6637 (1981)
Klostermeyer, J.: Computation of Acoustic-Gravity Waves, Kelvin-Helmholtz Instabilities, and Wave-Induced Eddy Transport in Realistic Atmospheric Models. Journal Geophysical Research 85, pp. 2829 - 2839 (1980)
Klostermeyer, J.; Rüster, R.: Radar Observations and Model Computations of a Jet Stream-Generated Kelvin-Helmholtz Instability. Journal Geophysical Research 85, pp. 2841 - 2846 (1980)
Klostermeyer, J.: Nonlinear Investigation of the Spatial Resonance Effect in the Nighttime Equatorial F Region. Journal Geophysical Research 83, pp. 3753 - 3760 (1978)
Klostermeyer, J.; Liu, C. H.: Indication of Gravity Wave-Mean Flow Interaction in Upper Atmospheric Radar Observations. Geophysical Research Letters 5, pp. 507 - 510 (1978)
Klostermeyer, J.; Röttger, J.: Simultaneous geomagnetic and ionospheric oscillations caused by hydromagnetic waves. Planetary and Space Science 24, pp. 1065 - 1071 (1976)
Klostermeyer, J.; Rüster, R.; Liu, C. H.: Diurnal variations of acoustic-gravity waves in the F-region. Journal of Atmospheric and Terrestrial Physics 37, pp. 1593 - 1597 (1975)
Liu, C. H.; Klostermeyer, J.: Excitation of acoustic-gravity waves in a realistic thermosphere. Journal of Atmospheric and Terrestrial Physics 37, pp. 1099 - 1108 (1975)
Klostermeyer, J.: Interpretation of the phase velocity dispersion of observed F-region waves. Journal of Atmospheric and Terrestrial Physics 36, pp. 1995 - 2000 (1974)
Klostermeyer, J.: Multilayer Analyses in Application to the Propagation of Acoustic-Gravity Waves. Journal Geophysical Research 78, pp. 1733 - 1734 (1973)
How does our star heat its outer atmosphere, the solar corona, to unimaginable temperatures of up to 10 million degrees Celsius? With unprecedented observational data from ESA's Solar Orbiter spacecraft and powerful computer simulations, ERC starting grant awardee Pradeep Chitta intends to bring new momentum to the search for the coronal heating mechanism.
The research group “Solar Lower Atmosphere and Magnetism” (SLAM) studies the conditions and dynamic processes in the atmospheric layer between the solar surface (photosphere) and the overlying chromosphere, an approximately 2000 km thick gas layer.
The main research fields of the department "Sun and Heliosphere" are covered by the research groups "Solar and Stellar Coronae", "Solar Lower Atmosphere and Magnetism", "Solar and Stellar Magnetohydrodynamics" and "Solar Variability and Climate".