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  • 523  (4)
  • Univ. Zugl.: Braunschweig  (4)
  • English  (4)
  • Latin
  • Russian
  • 2010-2014  (4)
  • 1990-1994
  • 1965-1969
  • 1
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    Influence of the surface on the atmospheric circulation of Mars (2010)
    Univ. Zugl.: Braunschweig
    Details
    Publication Date: 2021-03-29
    Description: Unlike on Earth where 3/4 of the surface is covered by oceans, the Martian surface has rougher topography with greater magnitudes of mountains and valleys. The Martian atmosphere is less dense compared to the terrestrial one. The planetary boundary layer is significantly shallower on Mars than on Earth. These differences indicate that the Martian atmosphere should be very sensitive to the forcing from below. The major mechanism which provides vertical coupling are atmospheric waves generated in the lower atmosphere near the surface. These waves transport the momentum, energy, and heat away from places of their generation in the lower atmosphere. Propagating upward the wave disturbances grow in amplitude, and ultimately break or dissipate. They release the wave energy and momentum to the zonal mean circulation, and thus affect the global transport in the atmosphere of Mars. The main task of this work is to study various physical phenomena which take place in the atmosphere near the surface with an emphasis on the mechanisms of wave generation ...
    Description: thesis
    Keywords: 523 ; TGG 565 ; Marsatmosphäre {Astronomie}
    Language: English
    Type: monograph , publishedVersion
    Format: 83 S.
    Format: application/pdf
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    CITATION GEO-LEO
  • 2
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    Energetic particles in the Jovian magnetosphere and their relation to auroral emissions (2010)
    Univ. Zugl.: Braunschweig
    Details
    Publication Date: 2021-03-29
    Description: This thesis discusses the relation between the energetic particle characteristics measured by Galileo in the inner to middle Jovian magnetosphere, and the auroral emissions observed by the Hubble Space Telescope. The thesis determines particle and field properties in the transition region between the dipolar and the current sheet region of the Jovian magnetosphere. The prime focus of the work is on the analysis and interpretation of the electron pitch angle distribution. A discussion is presented on how adiabatic processes and particle diffusion processes, such as pitch angle diffusion by whistler waves, can explain the observed distributions in the equatorial plane and how they can be related to the Jovian auroral emissions. Furthermore, the importance of these mechanisms in the framework of global plasma transport models is discussed. The introductory chapter briefly describes the fundamental features of the Jovian magnetosphere, with specific emphasis on phenomena which have no equivalence in the Earths̉ magnetosphere. The most outsanding factors that make the Jovian magnetosphere a particular case are the presence of the moon Io and the fast rotation of the planet. Io is the most important source of plasma in the Jovian magnetosphere releasing 1 ton/s of sulphur and oxygen ions, and therefore clearly conditions the plasma transport, acceleration and diffusion processes. Thus in contrast to the solar wind driven terrestrial magnetosphere, the magnetosphere of Jupiter is rotationally driven ...
    Description: thesis
    Keywords: 523 ; TGE 585 ; TGG 600 ; Magnetosphären, Magnetismus, Ionosphären {Astronomie} ; Jupiter {Astronomie}
    Language: English
    Type: monograph , publishedVersion
    Format: 123 S.
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  • 3
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    Aspects of the magnetosphere-stellar wind interaction of close-in extrasolar planets (2010)
    Univ. Zugl.: Braunschweig
    Details
    Publication Date: 2021-03-29
    Description: Since 1995, more than 150 extrasolar planets were detected, of which a considerable fraction orbit their host star at very close distances. Gas giants with orbital distances below 0.1 AU are called Hot Jupiters. Current detection techniques are not sensitive enough for the detection of Earth-like planets, but such planets are expected at similar orbital positions. For all these so-called close-in extrasolar planets, the interaction between the stellar wind and the planetary magnetosphere is expected to be very different from the situation known from the solar system. Important differences arising from the close substellar distances include a low stellar wind velocity, a high stellar wind density and strong tidal interaction between the planet and the star. This interaction is shown to lead, for example, to a synchronisation of the planetary rotation with its orbit (tidal locking). Taking these points into account, planetary magnetic moments are estimated and sizes of planetary magnetospheres are derived. Two different effects resulting from the magnetospheric interaction are studied in detail. (a) Characteristics of radio emission from the magnetospheres of Hot Jupiters are discussed. It is shown that the frequency range and the sensitivity of current radio detectors are not sufficient to detect exoplanetary radio emission. With planned improvements of the existing instrumentation and with the construction of new radio arrays, the detection of exoplanetary radio emission will be possible in the near future. (b) The flux of galactic cosmic rays to the atmospheres of terrestrial exoplanets in close orbits around M stars is studied. Different types of planets are shown to be weakly protected against cosmic rays, which is likely to have implications for planetary habitability. This should be taken into account when selecting targets for the search for biosignatures in the spectra of terrestrial exoplanets.
    Description: thesis
    Keywords: 523 ; THX 000 ; THP 000 ; THR 000 ; Extrasolare Planetensysteme {Astronomie: Sterne} ; Thermodynamische Vorgänge in Sternen {Astronomie} ; Elektrische und magnetische Felder {Sterne}
    Language: English
    Type: monograph , publishedVersion
    Format: 199 S.
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  • 4
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    Energetic ion composition and acceleration mechanisms in the magnetosphere of Jupiter (2010)
    Univ. Zugl.: Braunschweig
    Details
    Publication Date: 2021-03-29
    Description: Based on the first 15 orbits of the Galileo spacecraft the composition of the energetic ion population of the Jovian magnetosphere has been studied for the first time on a global scale. More specific, three different types of ions are investigated: helium as the tracer of the solar wind, sulfur and oxygen to a large extent as tracers of the internal source Io and protons with a mixed origin from the solar wind, Jovian atmosphere/ionosphere and the Europa gas torus. The ion energy spectrum fundamental for the study of the ion composition is investigated and a characteristic shape is established as a distinct feature of the Jovian magnetosphere. Based on the observed ion energy spectra the relative ion abundance ratios of S/O, S/He, O/He and p/He at a specific energy/nucleon are derived and global maps are constructed. The global coverage of the Galileo trajectories enables a quantitative comparison with results of previous flyby missions for the same radial distance and local time. The large discrepancies derived from the comparison with the Voyager 2 results are attributed to temporal variations and to a strong energy dependence of the ion abundance ratios associated with the energy spectral shapes ...
    Description: thesis
    Keywords: 523 ; TGG 600 ; TGE 585 ; Jupiter {Astronomie} ; Magnetosphären, Magnetismus, Ionosphären {Astronomie}
    Language: English
    Type: monograph , publishedVersion
    Format: 121 S.
    Format: application/pdf
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