摘要
从Kerr- Newman 度规理论及相对论统计物理理论证明了太阳活动区的电荷量的增加,能使太阳表面有效温度降低,由于太阳辐射能量主要集中在可见光波段,从而使太阳所带电荷量直接同太阳总辐射之间存在着深刻的内在物理联系。据计算,如果太阳电荷量增至4 ×1028 q ,就能使太阳表面温度降低2 K,这相当于太阳常数减小0-1 % ,因此,由于太阳活动引起电荷量的增加就能解释太阳活动与太阳常数日变化之间呈负相关的关系。
It has been shown by the theory of Kerr-Newman metric and relative statistics that the decreases of solar surface temperature can be caused by the increase of electric charge of solar active regions.Since the solar radiant energy is concentrated mainly on the wave band of visible light,so the electric charge of active regions maintain close internal relations with the total solar radiation.On the basis of our investigations,if the solar electric charge has increased to 4×10 28 Coulomb,solar surface temperature will reduce by 2 K,which correspond to 0.1% downward trend in the 1 AU total solar irradiance.Therefore,the increase of electric charge caused by solar active can be used to explain the strong inverse correlation between the irradiance dips observed by the SMM/ACRIM radiometer and the projected areas of the active sunspots.
出处
《南昌大学学报(理科版)》
CAS
1999年第3期226-231,共6页
Journal of Nanchang University(Natural Science)
