物理学科Seminar 第一原理计算探究氧化物中的电卡热效应

创建时间:  2016/06/16  龚惠英   浏览次数:   返回

报告题目Title:第一原理计算探究氧化物中的电卡热效应 (First-principles insights into caloric effects in ferroic oxides)
报 告 人Speaker:Prof. Inna Ponomareva  (Department of Physics, University of South Florida)
报告时间Time:2016年6月17日(周四)13:00
报告地点Venue:校本部E106会议室,上海大学量子与分子结构国际中心SHU ICQMS
报告摘要:
         Caloric effects have received a lot of attention recently owing to the discovery of giant caloric effects in ferroics. Caloric effect is defined as a reversible change in temperature under adiabatic application of external fields, such as electric field, stress field or magnetic field. As the caloric effects allow temperature control they are promising for solid-state refrigeration technology.

      I will present our recent progress in the computational first-principles-based studies of caloric effects in complex ferroics. In particular, I will talk about computational approach to study caloric effects directly and how its application to ferroelectrics and multiferroics led to the prediction of elastocaloric and multicaloric effects that were recently demonstrated in experiments. Furthermore, I will talk about the potential applications of caloric effects that go beyond solid state refrigeration. Intrinsic electrocaloric effects at the nanoscale will also be discussed.

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物理学科Seminar 第一原理计算探究氧化物中的电卡热效应

创建时间:  2016/06/16  龚惠英   浏览次数:   返回

报告题目Title:第一原理计算探究氧化物中的电卡热效应 (First-principles insights into caloric effects in ferroic oxides)
报 告 人Speaker:Prof. Inna Ponomareva  (Department of Physics, University of South Florida)
报告时间Time:2016年6月17日(周四)13:00
报告地点Venue:校本部E106会议室,上海大学量子与分子结构国际中心SHU ICQMS
报告摘要:
         Caloric effects have received a lot of attention recently owing to the discovery of giant caloric effects in ferroics. Caloric effect is defined as a reversible change in temperature under adiabatic application of external fields, such as electric field, stress field or magnetic field. As the caloric effects allow temperature control they are promising for solid-state refrigeration technology.

      I will present our recent progress in the computational first-principles-based studies of caloric effects in complex ferroics. In particular, I will talk about computational approach to study caloric effects directly and how its application to ferroelectrics and multiferroics led to the prediction of elastocaloric and multicaloric effects that were recently demonstrated in experiments. Furthermore, I will talk about the potential applications of caloric effects that go beyond solid state refrigeration. Intrinsic electrocaloric effects at the nanoscale will also be discussed.

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