Drolias, B.; Quenby, J. J.; Witcombe, A.; Korth, A.; Keppler, E.; Blake, J. B.: Numerical simulations of non-adiabatic particle motions in the Jovian magnetosphere; comparisons with ULYSSES observations. Planetary and Space Science 44, pp. 153 - 161 (1996)
Friedel, R. H. W.; Korth, A.; Kremser, G.: Substorm onsets observed by CRRES: Determination of energetic particle source regions. Journal Geophysical Research 101, pp. 13137 - 13154 (1996)
Keppler, E.; Drolias, B.; Fränz, M.; Korth, A.; Reuss, M. K.; Blake, J. B.; Quenby, J. J.: The high latitude pass of ULYSSES: energetic particle observations with EPAC. Astronomy and Astrophysics 316, pp. 464 - 480 (1996)
Pu, Z. Y.; Hong, M. H.; Wang, X. M.; Chen, Z. X.; Fu, S. Y.; Zong, Q.-G.; Wang, J. F.; Liu, Z. X.; Korth, A.; Friedel, R. H. W.et al.; Kremser, G.: A substorm expansion model based on configuration instability of the near-Earth magnetotail: I. Configuration instability in the near-Earth magnetotail. Acta Geophysica Sinica 39, p. 141 (1996)
Blake, J. B.; Fennell, J. F.; Friesen, L. M.; Johnson, B. M.; Kolasinski, W. A.; Mabry, D. J.; Osborn, J. V.; Penzin, S. H.; Schnauss, E. R.; Spence, H. E.et al.; Baker, D. N.; Belian, R.; Fritz, T. A.; Ford, W.; Laubscher, B.; Stiglich, R.; Baraze, R. A.; Hilsenrath, M. F.; Imhof, W. L.; Kilner, J. R.; Mobilia, J.; Voss, D. H.; Korth, A.; Güll, M.; Fischer, K.; Grande, M.; Hall, D.: CEPPAD. Space Science Reviews 71, pp. (7)531 - (7)562 (1995)
Friedel, R. H. W.; Korth, A.: Long-term observations of keV ion and electron variability in the outer radiation belt from CRRES. Geophysical Research Letters 22, pp. 1853 - 1856 (1995)
Keppler, E.; Fränz, M.; Korth, A.; Krupp, N.; Reuss, M. K.; Wilken, B.; Balogh, A.; Forsyth, R. J.; Quenby, J. J.; Blake, B.: Energetic particle observations at high heliographic latitudes. Space Science Reviews 72, pp. 285 - 289 (1995)
Keppler, E.; Fränz, M.; Korth, A.; Reuss, M. K.; Blake, J. B.; Seidel, R.; Quenby, J. J.; Witte, M.: Observations of energetic particles with EPAC on Ulysses in polar latitudes of the heliosphere. Science 268, pp. 1013 - 1016 (1995)
Kirsch, E.; McKenna-Lawlor, S.; Korth, A.; Schwenn, R.: Particle fluxes observed in the magnetic pileup regions of Comets Halley and Grigg-Skjellerup. Advances in Space Research 16, pp. (4)29 - (4)34 (1995)
Kopányi, V.; Korth, A.: Energetic particle dropouts observed in the morning sector by the geostationary satellite GEOS-2. Geophysical Research Letters 22, pp. 73 - 76 (1995)
Krupp, N.; Keppler, E.; Korth, A.; Fränz, M.; Reuss, M. K.; Balogh, A.; Dougherty, M. K.: Ion measurements in the Jovian magnetosphere by the Ulysses EPAC experiment: A comparison between dawn and dusk sectors. Advances in Space Research 16, pp. (4)183 - (4)186 (1995)
Korth, A.; Vampola, A. L.: Cross-L motion of a relativistic electron belt formed in the slot region. Journal Geophysical Research 99 (A7), pp. 13529 - 13535 (1994)
Pulkkinen, T. I.; Baker, D. N.; Toivanen, P. K.; Pellinen, R. J.; Friedel, R. H. W.; Korth, A.: Magnetospheric field and current distributions during the substorm recovery phase. Journal Geophysical Research 99 (A6), pp. 10955 - 10966 (1994)
Rème, H.; Mazelle, C.; d'Uston, C.; Korth, A.; Lin, R. P.; Chaizy, P.: There is no ``cometopause'' at comet Halley. Journal Geophysical Research 99 (A2), pp. 2301 - 2308 (1994)
Krupp, N.; Keppler, E.; Korth, A.; Fränz, M.; Balogh, A.; Dougherty, M. K.: Three-dimensional particle anisotropies in and near the plasma sheet of Jupiter observed by the EPAC experiment on board the Ulysses spacecraft. Planetary and Space Science 41, pp. 953 - 966 (1993)
Keppler, E.; Blake, J. B.; Fränz, M.; Korth, A.; Krupp, N.; Quenby, J. J.; Witte, M.; Woch, J.: An overview of energetic particle measurements in the Jovian magnetosphere with the EPAC sensor on Ulysses. Science 257, pp. 1553 - 1557 (1992)
Application deadline 1 October 2024. PhD projects in planetary science, solar and stellar physics, solar magnetism, heliophysics, helioseismology, asteroseismology, ...
First Light for Sunrise III: the first tests with real sunlight were successful. The balloon-borne solar observatory should be ready for launch at the end of May.
In analyzing solar observations from the 19th century, scientists are turning to amateur researchers for help. The project will allow to better understand the history of our star.
Astronomical teamwork: By combining data from Solar Orbiter and SDO, a group of researchers has unambiguously determined the magnetic field at the solar surface.
Application deadline 1 October 2023. PhD projects in planetary science, solar and stellar physics, solar magnetism, heliophysics, helioseismology, asteroseismology, ...
Philipp Löschl has co-authored an excellent publication on Solar Orbiter data which has been awarded best Solar Physics paper of 2022 (Gherardo Valori et al. 2022)