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A photometric search for solar giant convection cells

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Abstract

We limit the photometric contrast of solar giant convection cells using λ525.6 nm continuum images obtained on 15 days in May 1985. The r.m.s. of the giant cell intensity pattern must be less than or equal to the observed r.m.s. on spatial scales 80 to 240 Mm which is 0.023% or, equivalently, 0.33 K. However, the spatial scale and time-scale dependence of the variance demonstrate that giant cells are not the source of the observed variance. Consequently, a tighter constraint on the r.m.s. of the giant cell pattern may be placed, namely 0.016% or 0.23 K. This limit is consistent with temperature perturbations estimated from recent nonlinear simulations of global-scale solar convection. We use this limit on the r.m.s. of the giant cell pattern to estimate that the contribution of giant cells to the fluctuation of the solar irradiance on a one-month time-scale is less than 3 × 10−5 S.

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Authors and Affiliations

  1. Atmospheric and Environmental Research Inc., 840 Memorial Drive, 02139, Cambridge, U.S.A.

    W. -H. Chiang & L. D. Petro

  2. Cambridge Research and Instrumentation, Inc., 20 Erie Street, 02139, Cambridge, U.S.A.

    P. V. Foukal

Authors
  1. W. -H. Chiang
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  2. L. D. Petro
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  3. P. V. Foukal
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Chiang, W.H., Petro, L.D. & Foukal, P.V. A photometric search for solar giant convection cells. Sol Phys 110, 129–138 (1987). https://doi.org/10.1007/BF00148208

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  • DOI: https://doi.org/10.1007/BF00148208

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