Publications of Bruno P. Besser

A list of publications authored or co-authored by Bruno P. Besser, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0002-8536-422X

List of publications ordered by citations
Number of papers: 44 (refereed: 43)
No. of citations: 544
First author papers: 6 (refereed: 6)

2023

1. Karl von Lindener's sunspot observations during 1800-1827: Another long-term dataset for the Dalton Minimum [2]
   Hayakawa, Hisashi, Arlt, Rainer, Iju, Tomoya & Besser, Bruno P., Journal of Space Weather and Space Climate, 13, 33

2022

1. An Overview of Sunspot Observations in 1727-1748 [13]
   Hayakawa, Hisashi, Hattori, Kentaro, Sôma, Mitsuru, Iju, Tomoya, Besser, Bruno P. & Kosaka, Shunsuke, ApJ, 941, 151

2021

1. Johann Christoph Müller's Sunspot Observations in 1719 - 1720: Snapshots of the Immediate Aftermath of the Maunder Minimum [10]
   Hayakawa, Hisashi, Iju, Tomoya, Kuroyanagi, Chiaki, Carrasco, Víctor M. S., Besser, Bruno P., Uneme, Shoma & Imada, Shinsuke, Solar Physics, 296, 154
2. Reanalyses of the sunspot observations of Fogelius and Siverus: two 'long-term' observers during the Maunder minimum [20]
   Hayakawa, Hisashi, Iju, Tomoya, Uneme, Shoma, Besser, Bruno P., Kosaka, Shunsuke & Imada, Shinsuke, MNRAS, 506, 650
3. Stephan Prantner's Sunspot Observations during the Dalton Minimum [15]
   Hayakawa, Hisashi, Uneme, Shoma, Besser, Bruno P., Iju, Tomoya & Imada, Shinsuke, ApJ, 919, 1
4. Daniel Mögling's Sunspot Observations in 1626-1629: A Manuscript Reference for the Solar Activity before the Maunder Minimum [14]
   Hayakawa, Hisashi, Iju, Tomoya, Murata, Koji & Besser, Bruno P., ApJ, 909, 194
5. Sunspot Observations at the Eimmart Observatory and in Its Neighborhood during the Late Maunder Minimum (1681-1718) [28]
   Hayakawa, Hisashi, Kuroyanagi, Chiaki, Carrasco, Víctor M. S., Uneme, Shoma, Besser, Bruno P., Sôma, Mitsuru & Imada, Shinsuke, ApJ, 909, 166
6. Candidate Auroral Observations Indicating a Major Solar-Terrestrial Storm in 1680: Implication for Space Weather Events during the Maunder Minimum [9]
   Hayakawa, Hisashi, Schlegel, Kristian, Besser, Bruno P. & Ebihara, Yusuke, ApJ, 909, 29

2020

1. Low-altitude frequency-banded equatorial emissions observed below the electron cyclotron frequency [1]
   Boudjada, Mohammed Y., Galopeau, Patrick H. M., Sawas, Sami, Denisenko, Valery, Schwingenschuh, Konrad, Lammer, Helmut, Eichelberger, Hans U., Magnes, Werner & Besser, Bruno, Annales Geophysicae, 38, 765
2. Thaddäus Derfflinger's Sunspot Observations during 1802-1824: A Primary Reference to Understand the Dalton Minimum [44]
   Hayakawa, Hisashi, Besser, Bruno P., Iju, Tomoya, Arlt, Rainer, Uneme, Shoma, Imada, Shinsuke, Bourdin, Philippe-A. & Kraml, Amand, ApJ, 890, 98

2017

1. Reception conditions of low frequency (LF) transmitter signals onboard DEMETER micro-satellite [9]
   Boudjada, M. Y., Biagi, P. F., Al-Haddad, E., Galopeaud, P. H. M., Besser, B., Wolbang, D., Prattes, G., Eichelberger, H., Stangle, G., Parrot, M. & Schwingenschuh, K., Physics and Chemistry of the Earth, 102, 70

2012

1. Investigations of Lower Atmospheric Trends Over Europe with Very Low Frequency Wave Propagation Paths [1]
   Eichelberger, H. O., Prattes, G., Schwingenschuh, K., Wolbang, D., Rozhnoi, A., Solovieva, M., Biagi, P. F., Maggipinto, T., Besser, B., Stachel, M., Grill, C., Zehetleitner, S., Jemej, I. & Aydogar, Ö., 6th European Conference on Antennas and Propagation (EUCAP, p. 1156

2011

1. The Graz seismo-electromagnetic VLF facility [29]
   Schwingenschuh, K., Prattes, G., Besser, B. P., Močnik, K., Stachel, M., Aydogar, Ö., Jernej, I., Boudjada, M. Y., Stangl, G., Rozhnoi, A., Solovieva, M., Biagi, P. F., Hayakawa, M. & Eichelberger, H. U., Natural Hazards and Earth System Sciences, 11, 1121

2008

1. Electromagnetic wave propagation in the surface-ionosphere cavity of Venus [16]
   Simões, F., Hamelin, M., Grard, R., Aplin, K. L., Béghin, C., Berthelier, J.-J., Besser, B. P., Lebreton, J.-P., López-Moreno, J. J., Molina-Cuberos, G. J., Schwingenschuh, K. & Tokano, T., Journal of Geophysical Research (Planets), 113, E07007

2007

1. Synopsis of the historical development of Schumann resonances [29]
   Besser, B. P., Radio Science, 42, RS2S02
2. A Schumann-like resonance on Titan driven by Saturn's magnetosphere possibly revealed by the Huygens Probe [41]
   Béghin, C., Simões, F., Krasnoselskikh, V., Schwingenschuh, K., Berthelier, J. J., Besser, B. P., Bettanini, C., Grard, R., Hamelin, M., López-Moreno, J. J., Molina-Cuberos, G. J. & Tokano, T., Icarus, 191, 251
3. Modeling of the Temperature-Anisotropy Relaxation Time of the Earth's Magnetosheath [1]
   Meister, C.-V., Besser, B. & Lebedeva, V., Contributions to Plasma Physics, 47, 381
4. A new numerical model for the simulation of ELF wave propagation and the computation of eigenmodes in the atmosphere of Titan: Did Huygens observe any Schumann resonance? [39]
   Simões, F., Grard, R., Hamelin, M., López-Moreno, J. J., Schwingenschuh, K., Béghin, C., Berthelier, J.-J., Besser, B., Brown, V. J. G., Chabassière, M., Falkner, P., Ferri, F., Fulchignoni, M., Hofe, R., Jernej, I., Jeronimo, J. M., Molina-Cuberos, G. J., Rodrigo, R., Svedhem, H., Tokano, T. & Trautner, R., Planetary and Space Science, 55, 1978

2006

1. Schumann resonances as a tool to study the lower ionospheric structure of Mars [23]
   Molina-Cuberos, G. J., Morente, J. A., Besser, B. P., Portí, J., Lichtenegger, H., Schwingenschuh, K., Salinas, A. & Margineda, J., Radio Science, 41, RS1003
2. A numerical study of atmospheric signals in the Earth-ionosphere electromagnetic cavity with the Transmission Line Matrix method [3]
   Morente, Juan A., Portí, Jorge A., Besser, Bruno P., Salinas, Alfonso, Lichtenegger, Herbert I. M., Navarro, Enrique A. & Molina-Cuberos, Gregorio J., Journal of Geophysical Research (Space Physics), 111, A10305

2004

1. Shumann resonances and electromagnetic transparence in the atmosphere of Titan [12]
   Molina-Cuberos, G. J., Porti, J., Besser, B. P., Morente, J. A., Margineda, J., Lichtenegger, H. I. M., Salinas, A., Schwingenschuh, K. & Eichelberger, H. U., Advances in Space Research, 33, 2309
2. Do Schumann resonance frequencies depend on altitude? [8]
   Morente, Juan A., Portí, Jorge A., Salinas, Alfonso, Molina-Cuberos, Gregorio J., Lichtenegger, Herbert, Besser, Bruno P. & Schwingenschuh, Konrad, Journal of Geophysical Research (Space Physics), 109, A05306

2003

1. A study of the propagation of electromagnetic waves in Titan's atmosphere with the TLM numerical method [20]
   Morente, Juan A., Molina-Cuberos, Gregorio J., Portí, Jorge A., Schwingenschuh, Korand & Besser, Bruno P., Icarus, 162, 374
2. Model computations of Schumann resonance on Titan [15]
   Nickolaenko, Alexander P., Besser, Bruno P. & Schwingenschuh, Konrad, Planetary and Space Science, 51, 853

2002

1. MHD-modelling of the magnetosheath [4]
   Pudovkin, M. I., Zaitseva, S. A., Lebedeva, V. V., Samsonov, A. A., Besser, B. P., Meister, C.-V. & Baumjohann, W., Planetary and Space Science, 50, 473
2. Proton pitch angle diffusion rate and wave turbulence characteristics in the magnetosheath plasma [3]
   Pudovkin, M. I., Zaitseva, S. A., Besser, B. P., Baumjohann, W., Meister, C.-V. & Maulini, A. L., Journal of Geophysical Research (Space Physics), 107, 1402

2000

1. Magnetosheath Structure in an Anisotropic Plasma Model [0]
   Besser, Bruno P., Pudovkin, Mikhail I., Lebedeva, Valentina V., Zaitseva, Svetlana A. & Meister, Claudia-Veronika, Astrophysics and Space Science, 274, 399
2. Effective adiabatic index in a wave structure of the solar wind: A case study for 17 December 1990 [2]
   Pudovkin, Mikhail I., Lubchich, Andris A., Zaitseva, Svetlana A., Meister, Claudia-Veronika & Besser, Bruno P., Physics of Plasmas, 7, 4683
3. Simulation of a Coronal Streamer:Alfvén Wave Acceleration [1]
   Usmanov, A. V., Besser, B. P., Fritzer, J. M. & Goldstein, M. L., Advances in Space Research, 25, 1897

1999

1. Electric Currents at IMF Sector Boundaries [5]
   Pudovkin, M. I., Runov, A. V., Zaitseva, S. A., Besser, B. P. & Meiser, C.-V., Solar Physics, 184, 173
2. Adiabatic indices in a convecting anisotropic plasma [3]
   Pudovkin, M. I., Meister, C.-V. & Besser, B. P., Astronomische Nachrichten, 320, 87
3. Magnetosheath model in the Chew-Goldberger-Low approximation [17]
   Pudovkin, Mikhail I., Besser, Bruno P., Lebedeva, Valentina V., Zaitseva, Svetlana A. & Meister, Claudia-Veronika, Physics of Plasmas, 6, 2887

1998

1. Magnetopause stand-off distance in dependence on the magnetosheath and solar wind parameters [24]
   Pudovkin, M. I., Besser, B. P. & Zaitseva, S. A., Annales Geophysicae, 16, 388

1997

1. MHD Analysis of Petschek-Type Reconnection in Non-Uniform Field and Flow Geometries [10]
   Kiendl, Michael T., Semenov, Vladimir S., Kubyshkin, Igor V., Biernat, Helfried K., Rijnbeek, Richard P. & Besser, Bruno P., Space Science Reviews, 79, 709
2. The magnetopause erosion and the magnetosheath magnetic field penetration into the dayside magnetosphere [2]
   Pudovkin, M. I., Zaitseva, S. A. & Besser, B. P., Advances in Space Research, 19, 1909
3. Energetics of reconnection: A reply [2]
   Semenov, Vladimir S., Kubyshkin, Igor V., Kiendl, Michael T., Biernat, Helfried K., Rijnbeek, Richard P. & Besser, Bruno P., Space Science Reviews, 82, 451

1996

1. Time-varying, localized reconnection at a current sheet with a plasma flow forming a stagnation line [0]
   Besser, B. P., Rijnbeek, R. P. & Semenov, V. A., Advances in Space Research, 18, 281

1995

1. Global solar wind simulations around solar minimum (1985/86) [0]
   Besser, B. P., Lichtenegger, H. I. M., Usmanov, A. V. & Fritzer, J. M., Advances in Space Research, 16, 115
2. Magnetopause magnetic barrier parameters in dependence on the solar wind magnetic field orientation [13]
   Pudovkin, M. I., Zaitseva, S. A. & Besser, B. P., Annales Geophysicae, 13, 828

1994

1. The solar wind flow along the subsolar line in the magnetic barrier and reconnection at the magnetopause [4]
   Erkaev, N. V., Mezentsev, A. V., Biernat, H. K., Besser, B. P., Bachmaier, G. A., Semenov, V. S., Rijnbeek, R. P. & Farrugia, C. J., Advances in Space Research, 14, 81

1991

1. Dissipative stagnation-point flows at a current sheet with shear in the plasma velocity. [5]
   Besser, B. P., Biernat, H. K. & Rijnbeek, R. P., Journal of Atmospheric and Terrestrial Physics, 53, 1081
2. Time-dependent reconnection in a current sheet with velocity shear [20]
   Rijnbeek, R. P., Semenov, V. S., Shmalts, A. A., Biernat, H. K., Heyn, M. F. & Besser, B. P., Planetary and Space Science, 39, 1377
3. Flux transfer events interpreted in terms of a generalized model for petschek-type reconnection [6]
   Semenov, V. S., Kubyshkin, I. V., Biernat, H. K., Heyn, M. F., Rijnbeek, R. P., Besser, B. P. & Farrugia, C. J., Advances in Space Research, 11, 25

1990

1. Planar MHD stagnation-point flows with velocity shear [21]
   Besser, Bruno Philipp, Biernat, Helfried Karl & Rijnbeek, Richard Philip, Planetary and Space Science, 38, 411