Self-energy shift and energy band theory for warm dense matter

来源: 聚变理论与模拟中心 作者: 时间:2019-07-03 访问次数:0

主讲人:贺贤土 院士(北京大学)

题目:Self-energy shift and energy band theory for warm dense matter

时间:2019年6月26日,星期三,上午9:00

      2019年6月27日,星期四,上午9:00

地点:玉泉校区教十一-413会议室

摘要:

Energy band structures caused by self-energy shifting that results in bound energy levels broadening and merging are found in the warn dense matter (WDM), which is a partial-ionized quantum plasma under high density and temperature and is numerically intractable to deal with by the traditional thermal density functional theory (DFT) due to existing thousands of high-excited atomic states. We proposed an energy band theory for WDM and developed a new code based on the energy band theory to improve the traditional DFT. Massive data of equation of state and transport coefficients for WDM in medium and low Z have been simulated and investigated. The transition from the full degenerate to partial degenerate (related to WDM) and finally to nondegenerate state is studied using the Lorenz number varying with the degenerate parameter, and lower and upper parameter boundaries for WDM are achieved. It is shown that the pressure ionization results in the Wiedemann-Franz law no longer available for WDM.