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2002 Volume 19 Issue 1
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周爱华. 2002: Approximate Expression of Ellipse Polarization Degree for Gyrosynchrotron Radiation, Chinese Physics Letters, 19(1): 144-146.
Citation: 周爱华. 2002: Approximate Expression of Ellipse Polarization Degree for Gyrosynchrotron Radiation, Chinese Physics Letters, 19(1): 144-146.
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Approximate Expression of Ellipse Polarization Degree for Gyrosynchrotron Radiation

  • Purple Mountain Observatory, Chinese Academy of Sciences, Nanjing 210008;National Astronomical Observatories, Chinese Academy of Sciences, Beijing 100012

  • Corresponding author: 周爱华
  • Available Online: 30/01/2002
  • Fund Project: the National Natural Science Foundation of China under Grant No. 19833050
  • We study the elliptical polarization degree (EPD) of gyrosynchrotron radiation for the case of transverse propagation. The EPD decreases with increasing ellipticity R (i.e. ratio of the major and minor axiallengths)and with decreasing electron energy spectral index δ. The EPD value varies from 0.55 to 0.15 in the whole range of 3 ≤ R ≤ 10 and 2 ≤δ≤ 7. An approximate expression for the EPD is proposed, in which we assume that the emitting electrons have an isotropic pitch angle distribution and a power-law distribution in energy. The expression is designed for the electron energy spectral index δ from 2 to 7, as well as the harmonic numbers s from 2 to 70 with a statistical error of ±6%. The expression can be applied to the polarization analysis and magnetic field strength diagnostic for solar limb events.
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    沈阳化工大学材料科学与工程学院 沈阳 110142

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Approximate Expression of Ellipse Polarization Degree for Gyrosynchrotron Radiation

    Corresponding author: 周爱华
  • Available Online: 30/01/2002

Abstract: We study the elliptical polarization degree (EPD) of gyrosynchrotron radiation for the case of transverse propagation. The EPD decreases with increasing ellipticity R (i.e. ratio of the major and minor axiallengths)and with decreasing electron energy spectral index δ. The EPD value varies from 0.55 to 0.15 in the whole range of 3 ≤ R ≤ 10 and 2 ≤δ≤ 7. An approximate expression for the EPD is proposed, in which we assume that the emitting electrons have an isotropic pitch angle distribution and a power-law distribution in energy. The expression is designed for the electron energy spectral index δ from 2 to 7, as well as the harmonic numbers s from 2 to 70 with a statistical error of ±6%. The expression can be applied to the polarization analysis and magnetic field strength diagnostic for solar limb events.

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