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  • 1980-1984  (2)
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  • 1
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    The evolution of solar ultraviolet luminosity (1982)
    In:  Other Sources
    Details
    Publication Date: 2019-06-28
    Description: Astronomical observations of stars analogous to the sun are used to construct a tentative account of the evolution of solar UV luminosity. Evidence exists that the young sun was a much more powerful source of energetic particles and radiation than it is today, and while on the main sequence, solar activity has declined as an inverse power law of age as a consequence of angular momentum loss to the solar wind. Observations of pre-main sequence stars indicate that before the sun reached the main sequence, it may have emitted as much as ten thousand times the amount of ultraviolet radiation that it does today. The impact of the results on knowledge of photochemistry and escape of constituents of primordial planetary atmospheres is discussed.
    Keywords: SOLAR PHYSICS
    Type: Reviews of Geophysics and Space Physics; 20; May 1982
    Format: text
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    NASA TECHNICAL REPORTS
  • 2
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    Photochemistry of methane in the earth's early atmosphere (1983)
    In:  Other Sources
    Details
    Publication Date: 2019-06-28
    Description: The photochemical behavior of methane in the early terrestrial atmosphere is investigated with a detailed model in order to determine how much CH4 might have been present and what types of higher hydroocarbons could have been formed. It is found that any primordial methane accumulated during the course of earth accretion would have been dissipated by photochemical reactions in the atmosphere in a geologically short period of time after the segregation of the core. Abiotic sources of methane are not likely to have been large enough to sustain CH4 mixing ratios as high as 10 to the -6th, the threshold for a possible methane greenhouse, with a CO-rich atmosphere being a possible exception. After the origin of life an increasing biogenic source of methane may have driven CH4 mixing ratios well above 10 to the 6th. The rise of atmospheric oxygen in the early Proterozoic may have led to a more rapid photochemical destruction of methane, lowering the mixing ratio to its present value.
    Keywords: GEOPHYSICS
    Type: Precambrian Research (ISSN 0301-9268); 20; 121-148
    Format: text
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    NASA TECHNICAL REPORTS
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