Gloeckler, G.; Geiss, J.; Balsiger, H.; Bedini, P.; Cain, J. C.; Fisher, J.; Fisk, L. A.; Galvin, A. B.; Gliem, F.; Hamilton, D. C.et al.; Hollweg, J. V.; Ipavich, F. M.; Joos, R.; Livi, S.; Lundgren, R.; Mall, U.; McKenzie, J. F.; Ogilvie, K. W.; Ottens, F.; Rieck, W.; Tums, E. O.; von Steiger, R.; Weiss, W.; Wilken, B.: The solar wind ion composition spectrometer. Astronomy and Astrophysics, Suppl. Ser. 92, pp. 267 - 289 (1992)
Sauer, K.; Roatsch, T.; Motschman, U.; Schwingenshuh, K.; Lundin, R.; Rosenbauer, H.; Livi, S.: Observations of plasma boundaries and phenomena around Mars with Phobos 2. Journal Geophysical Research 97, pp. 6227 - 6233 (1992)
Schwingenshuh, K.; Riedler, W.; Zhang, T. L.; Lichtenegger, H.; Rosenbauer, H.; Livi, S.; Gevai, G.; Gringauz, K.; Verigin, M.; Yeroshenko, Y.et al.; Moehlmann, D.; Roatsch, T.; Lundin, R.; Russel, C. T.; Luhmann, J.: The Martian magnetic field environment: induced or dominated by an intrinsic magnetic field? Advances in Space Research 12 (9), pp. 213 - 219 (1992)
Kirsch, E.; Keppler, E.; Witte, M.; Rosenbauer, H.; Livi, S.; Schwingenschuh, K.; McKenna-Lawlor, S. M. P.; Afonin, V. V.; O'Sullivan, D.; Thompson, A.: Pick-up ions (Eo+ > 55 keV) measured near Mars by Phobos-2 in February/March 1989. Annales Geophysicae 9, pp. 761 - 767 (1991)
Kirsch, E.; Keppler, E.; Witte, M.; Rosenbauer, H.; Livi, S.; Schwingenshuh, K.; McKenna-Lawlor, S.; Afonin, V. V.; O'Sullivan, D.; Thompson, A.: Pickup ions ( E O+ > 55 keV) measured near Mars by Phobos-2 in February/March 1989. Annales Geophysicae 9, pp. 761 - 767 (1991)
Verigin, M. I.; Gringauz, K. I.; Kotova, G. A.; Shutte, N. M.; Rosenbauer, H.; Livi, S.; Richter, A. K.; Riedler, W.; Schwingenshuh, K.; Szego, K.: On the problem of the Martian atmosphere dissipation: PhOBOS 2 TAUS spectrometer results. Journal Geophysical Research 96, pp. 19315 - 19320 (1991)
Verigin, M. I.; Shutte, N. M.; Galeev, A. A.; Gringauz, K. I.; Kotova, G. A.; Remizov, A. P.; Rosenbauer, H.; Hemmerich, P.; Livi, S.; Richter, A. K.et al.; Apathy, I.; Szego, K.; Riedler, W.; Schwingenshuh, K.; Steller, M.; Yeroshenko, Y. G.: Ions of planetary origin in the Martian magnetosphere (Phobos 2/Taus experiment). Planetary and Space Science 39, pp. 131 - 137 (1991)
Rosenbauer, H.; Shutte, N.; Apathy, I.; Verigin, M.; Witte, M.; Galeev, A.; Gringauz, K.; Grünwaldt, H.; Jockers, K.; Kiraly, P.et al.; Kotova, G.; Livi, S.; Marsch, E.; Remizov, A.; Richter, A.; Riedler, W.; Szego, K.; Hemmerich, P.; Schwenn, R.; Schwingenschuh, K.; Steller, M.: First meansurements of ions of Martian origin and observation of a plasma layer in the magnetosphere of Mars: the TAUS experiment on the spacecraft PHOBOS 2. Sov. Astron. Letter 16, pp. 156 - 160 (1990)
Rosenbauer, H.; Shutte, N.; Apathy, I.; Verigin, M.; Witte, M.; Galeev, A.; Gringauz, K.; Grünwaldt, H.; Jockers, K.; Kiraly, P.et al.; Kotova, G.; Livi, S.; Marsch, E.; Remizov, A.; Richter, A.; Riedler, W.; Szego, K.; Hemmerich, P.; Schwenn, R.; Schwingenschuh, K.; Steller, M.: Evidence of a plasmasheet in the Martian magnetotail based on the TAUS experiment data from the `Phobos-2' spacecraft. Pis'ma v Astronomicheskie Zhurnal 16, pp. 368 - 377 (1990)
Kohl, L. J.; Weiser, H.; Livi, S.: Spectroscopic measurements of solar wind parameters near the Sun, Solar System Plasma Physic. Geophysical Monograph 54, pp. 81 - 88 (1989)
Hernandez, R.; Livi, S.; Marsch, E.: On the He2+ to H+ temperature ratio in slow solar wind. Journal Geophysical Research 92 (A7), pp. 7723 - 7727 (1987)
Livi, S.; Marsch, E.: Generation of solar wind proton tails and double beams by Coulomb collisions. Journal Geophysical Research 92 (A7), pp. 7255 - 7261 (1987)
Marsch, E.; Livi, S.: Observational evidence for marginal stability of solar wind ion beams. Journal Geophysical Research 92 (A7), pp. 7263 - 7268 (1987)
Livi, S.; Marsch, E.: Comparison of the Bhatnagar-Gross-Krook approximation with the exact Coulomb collision operator. Physical Review A 34 (1), pp. 533 - 540 (1986)
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)