The correlation between the Calern solar diameter measurements and the solar irradiance

被引:11
作者
Rozelot, JP [1 ]
机构
[1] OCA CERGA, F-06130 Grasse, France
来源
SOLAR PHYSICS | 1998年 / 177卷 / 1-2期
关键词
Atmosphere; Empirical Model; Climate Variation; Solar Irradiance; Thermal Structure;
D O I
10.1023/A:1004920619857
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
The objective of this paper is to present some results deduced from the analysis of (space-based) solar irradiance observations used jointly with (ground-based) solar diameter variations. The idea which is explored consists in searching a possible influence of the variability of the Sun's whole shape on the luminosity. It is shown that such an effect, albeit small, may occur. Thus, the global geometry of the Sun - which is not a perfect static ellipsoid - would have to be taken into account when attempting to model the il radiance. Our very preliminary results may help to construct empirical models that can be used, in turn to force any model of the thermal structure of the ocean and atmosphere to deduce climate variations, if any.
引用
收藏
页码:321 / 327
页数:7
相关论文
共 50 条
  • [1] The correlation between the Calern solar diameter measurements and the solar irradiance
    J. P. Rozelot
    Solar Physics, 1998, 177 : 321 - 327
  • [2] Solar Extreme Ultraviolet Irradiance Measurements During Solar Cycle 22
    Thomas N. Woods
    Gary J. Rottman
    Scott M. Bailey
    Stanley C. Solomon
    John R. Worden
    Solar Physics, 1998, 177 : 133 - 146
  • [3] Total Solar Irradiance Measurements with PREMOS/PICARD
    Schmutz, Werner
    Fehlmann, Andre
    Finsterle, Wolfgang
    Kopp, Greg
    Thuillier, Gerard
    RADIATION PROCESSES IN THE ATMOSPHERE AND OCEAN (IRS2012), 2013, 1531 : 624 - 627
  • [4] The Solar Irradiance Spectrum at Solar Activity Minimum Between Solar Cycles 23 and 24
    Thuillier, G.
    Bolsee, D.
    Schmidtke, G.
    Foujols, T.
    Nikutowski, B.
    Shapiro, A. I.
    Brunner, R.
    Weber, M.
    Erhardt, C.
    Herse, M.
    Gillotay, D.
    Peetermans, W.
    Decuyper, W.
    Pereira, N.
    Haberreiter, M.
    Mandel, H.
    Schmutz, W.
    SOLAR PHYSICS, 2014, 289 (06) : 1931 - 1958
  • [5] Gome Solar UV/VIS Irradiance Measurements between 1995 and 1997 – First Results on Proxy Solar Activity Studies
    Mark Weber
    John P. Burrows
    Richard P. Cebula
    Solar Physics, 1998, 177 : 63 - 77
  • [6] Correlation between Total Solar Irradiance and Global Land Temperatures for the Last 120 Years
    Varonov, A.
    Shopov, Y. Y.
    PROCEEDINGS OF THE 5TH SCHOOL AND WORKSHOP ON SPACE PLASMA PHYSICS (SPACE PLASMA PHYSICS), 2016, 1714
  • [7] Solar Cycle Variation in Solar Irradiance
    K. L. Yeo
    N. A. Krivova
    S. K. Solanki
    Space Science Reviews, 2014, 186 : 137 - 167
  • [8] Solar Cycle Variation in Solar Irradiance
    Yeo, K. L.
    Krivova, N. A.
    Solanki, S. K.
    SPACE SCIENCE REVIEWS, 2014, 186 (1-4) : 137 - 167
  • [9] Solar surface magnetism and the increase of solar irradiance between activity minimum and maximum
    Fligge, M
    Solanki, SK
    Meunier, N
    Unruh, YC
    PROCEEDINGS OF THE 1ST SOLAR AND SPACE WEATHER EUROCONFERENCE ON THE SOLAR CYCLE AND TERRESTRIAL CLIMATE, 2000, 463 : 117 - 121
  • [10] Solar Irradiance Measurements Using Smart Devices: A Cost-Effective Technique for Estimation of Solar Irradiance for Sustainable Energy Systems
    Al-Taani, Hussein
    Arabasi, Sameer
    SUSTAINABILITY, 2018, 10 (02)
12345