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Determination of the lunar body tide from global laser altimetry data View Full Text

Ontology type: schema:ScholarlyArticle      Open Access: True


Article Info

DATE

2020-12-23

AUTHORS

Robin N. Thor, Reinald Kallenbach, Ulrich R. Christensen, Philipp Gläser, Alexander Stark, Gregor Steinbrügge, Jürgen Oberst

ABSTRACT

We use global data from the Lunar Orbiter Laser Altimeter (LOLA) to retrieve the lunar tidal Love number h2\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$h_2$$\end{document} and find h2=0.0387±0.0025\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$h_2 = 0.0387\pm 0.0025$$\end{document}. This result is in agreement with previous estimates from laser altimetry using crossover points of LOLA profiles. The Love numbers k2\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$k_2$$\end{document} and h2\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$h_2$$\end{document} are key constraints on planetary interior models. We further develop and apply a retrieval method based on a simultaneous inversion for the topography and the tidal signal benefiting from the large volume of LOLA data. By the application to the lunar tides, we also demonstrate the potential of the method for future altimetry experiments at other planetary bodies. The results of this study are very promising with respect to the determination of Mercury’s and Ganymede’s h2\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$h_2$$\end{document} from future altimeter measurements. More... »

PAGES

4

References to SciGraph publications

  • 2008. Mercury’s Interior Structure, Rotation, and Tides in MERCURY
  • 2019-08-13. The BepiColombo Laser Altimeter (BELA): a post-launch summary in CEAS SPACE JOURNAL
  • 2016-08-12. Constraints on dissipation in the deep interiors of Ganymede and Europa from tidal phase-lags in CELESTIAL MECHANICS AND DYNAMICAL ASTRONOMY
  • 2019-10-21. The Ganymede laser altimeter (GALA): key objectives, instrument design, and performance in CEAS SPACE JOURNAL
  • 1986. Spatial Variation in NONE
  • 2002-07. Regularization of gravity field estimation from satellite gravity gradients in JOURNAL OF GEODESY
  • 2018-02-23. Report of the IAU Working Group on Cartographic Coordinates and Rotational Elements: 2015 in CELESTIAL MECHANICS AND DYNAMICAL ASTRONOMY
  • 2006-03-21. Variance Component Estimation in Linear Inverse Ill-posed Models in JOURNAL OF GEODESY
  • 2013-01-04. Gravity Recovery and Interior Laboratory (GRAIL): Mapping the Lunar Interior from Crust to Core in SPACE SCIENCE REVIEWS
  • 2009-05-16. The Lunar Orbiter Laser Altimeter Investigation on the Lunar Reconnaissance Orbiter Mission in SPACE SCIENCE REVIEWS
  • 2010-04-10. Geodetic constraints from multi-beam laser altimeter crossovers in JOURNAL OF GEODESY
  • 2016-07-25. Determining parameters of Moon’s orbital and rotational motion from LLR observations using GRAIL and IERS-recommended models in CELESTIAL MECHANICS AND DYNAMICAL ASTRONOMY

    • Journal

    TITLE

    Journal of Geodesy

    ISSUE

    1

    VOLUME

    95

    Subjects

  • FOR: Mathematical Sciences
  • FOR: Earth Sciences
  • FOR: Engineering
  • FOR: Applied Mathematics
  • FOR: Geophysics
  • FOR: Geomatic Engineering

    • Author Affiliations

  • Institute of Geodesy and Geoinformation Science, Technische Universität Berlin, Straße des 17. Juni 135, 10623, Berlin, Germany
  • DLR Institute of Planetary Research, Rutherfordstraße 2, 12489, Berlin, Germany
  • Max Planck Institute for Solar System Research, Justus-von-Liebig-Weg 3, 37077, Göttingen, Germany
  • Department of Geophysics, Stanford University, 397 Panama Mall, 94305, Stanford, CA, USA

    • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1007/s00190-020-01455-8

    DOI

    http://dx.doi.org/10.1007/s00190-020-01455-8

    DIMENSIONS

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    22 schema:description We use global data from the Lunar Orbiter Laser Altimeter (LOLA) to retrieve the lunar tidal Love number h2\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$h_2$$\end{document} and find h2=0.0387±0.0025\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$h_2 = 0.0387\pm 0.0025$$\end{document}. This result is in agreement with previous estimates from laser altimetry using crossover points of LOLA profiles. The Love numbers k2\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$k_2$$\end{document} and h2\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$h_2$$\end{document} are key constraints on planetary interior models. We further develop and apply a retrieval method based on a simultaneous inversion for the topography and the tidal signal benefiting from the large volume of LOLA data. By the application to the lunar tides, we also demonstrate the potential of the method for future altimetry experiments at other planetary bodies. The results of this study are very promising with respect to the determination of Mercury’s and Ganymede’s h2\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$h_2$$\end{document} from future altimeter measurements.
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    29 schema:keywords Ganymede
    30 LOLA data
    31 Love numbers
    32 Lunar Orbiter Laser Altimeter
    33 agreement
    34 altimeter
    35 altimeter measurements
    36 altimetry
    37 altimetry data
    38 applications
    39 body
    40 body tide
    41 constraints
    42 crossover point
    43 data
    44 determination
    45 estimates
    46 experiments
    47 global data
    48 interior models
    49 inversion
    50 key constraints
    51 large volumes
    52 laser altimeter
    53 laser altimetry
    54 laser altimetry data
    55 love
    56 lunar tide
    57 measurements
    58 mercury
    59 method
    60 model
    61 number
    62 planetary bodies
    63 planetary interior models
    64 point
    65 potential
    66 previous estimates
    67 profile
    68 respect
    69 results
    70 retrieval method
    71 signals
    72 simultaneous inversion
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    79 schema:name Determination of the lunar body tide from global laser altimetry data
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