Yanshi Huang (UNM) - Impacts of solar irradiance, Joule heating and particle precipitation on Earth's upper atmosphere

Time:Dec 19(Thu)1:30 pm Where:N415 Physics Building Title:Impacts of solar irradiance, Joule heating and particle precipitation on Earth's upper atmosphere Speaker: Yanshi Huang Ph.D., University of New Mexico

Abstract:The primary energy sources of Earth's upper atmosphere are the solar irradiance and geomagnetic energy including Joule heating and particle precipitation. Various data and models are utilized to investigate the variations of energy inputs and their influences on the coupled thermosphere-ionosphere system. First, the Flare Irradiance Spectral Model (FISM) has been used and the data show that the solar irradiance enhancement has wavelength dependence during flare events, and the solar irradiance increased largest in the XUV range. NCAR Thermosphere-Ionosphere-Electrodynamics General Circulation Model (TIE-GCM) simulations for the X17.2-class flare event on October 28th, 2003 show that the impact of solar irradiance enhancement on the high-altitude thermosphere (400 km) is largest in the EUV wavebands instead. Secondly, the energy transfer processes into the upper atmosphere associated with high-speed solar wind stream has been investigated. It is a combination of Joule heating and particle precipitation, while Joule heating may play a more important role. Thirdly, TIE-GCM has been used to examine the altitudinal distribution of Joule heating and its influence on the upper atmosphere. The simulation results indicate that most of the Joule heating is deposited under 150 km. For both solar minimum and maximum conditions, it is found that the high-altitude Joule heating has a stronger impact on the atmosphere at 400 km. At last, the long-term variation of different energy inputs in the last solar cycle has been studied as well. The solar EUV power in last solar minimum (2008) was reduced by 33 GW compared to the previous solar minimum (1996). The reduction of the total geomagnetic energy was close to 29 GW including 13 GW for Joule heating and 16 GW for particle precipitation. The change of the geomagnetic energy from 1996 to 2008 was comparable to that of the solar EUV power. TIE-GCM simulations indicate that the variation of the solar irradiance and the geomagnetic energy accounts for 3/4 and 1/4 of the total neutral density reduction in 2008, respectively.