物理学科Seminar第672讲 手性与动磁学

创建时间:  2024/06/19  龚惠英   浏览次数:   返回

报告题目 (Title):Chirality and Kinetomagnetism(手性与动磁学)

报告人 (Speaker):Prof. Sang-Wook Cheong (Rutgers, The State University of New Jersey, USA)

报告时间 (Time):2024年6月21日(周五)8:30-13:00

报告地点 (Place):校本部 D413

邀请人 (Inviter):任伟 教授

主办部门:永利物理系

报告摘要:

Chirality, which arises from the breaking of mirror symmetries combined with any spatial rotations, plays a ubiquitous role in a wide range of phenomena, from the DNA functionality, vine climbing to the piezoelectricity of quartz crystals. It's important to note that chirality does not necessarily involve a screw-like twisting, and magnetic chirality means chirality in spin ordered states or mesoscopic spin textures. Despite being mathematically well-defined, the term "chirality" has been extensively used, often in confusing ways, in recent years. In steady states, chirality (C) does not change with time-reversal operation, while chirality prime (C') denotes the breaking of time-reversal symmetry in addition to broken all mirror symmetries, combined with any spatial rotations. Various examples of magnetic chirality and chirality prime and their emergent phenomena, such as self-inductance, directional nonreciprocity in magnetic fields, currentinduced magnetization, chirality-selective spin-polarized current, Schwinger scattering, magneto-optical Kerr effect, linear magnetoelectricity, and chiral tunneling will be discussed. Many of these phenomena can be understood with one hypothesis on “kinetomagnetism in chiral systems” that I will present. Some of these exotic phenomena have been recently observed, while many others require experimental confirmation in the future.

上一条:物理学科Seminar第673讲 手性,相对论效应与粒子物理的标准模型

下一条:物理学科Seminar第671讲 一种新的基于对称模式的手性描述符。手性有机-无机杂化金属卤化物的应用


物理学科Seminar第672讲 手性与动磁学

创建时间:  2024/06/19  龚惠英   浏览次数:   返回

报告题目 (Title):Chirality and Kinetomagnetism(手性与动磁学)

报告人 (Speaker):Prof. Sang-Wook Cheong (Rutgers, The State University of New Jersey, USA)

报告时间 (Time):2024年6月21日(周五)8:30-13:00

报告地点 (Place):校本部 D413

邀请人 (Inviter):任伟 教授

主办部门:永利物理系

报告摘要:

Chirality, which arises from the breaking of mirror symmetries combined with any spatial rotations, plays a ubiquitous role in a wide range of phenomena, from the DNA functionality, vine climbing to the piezoelectricity of quartz crystals. It's important to note that chirality does not necessarily involve a screw-like twisting, and magnetic chirality means chirality in spin ordered states or mesoscopic spin textures. Despite being mathematically well-defined, the term "chirality" has been extensively used, often in confusing ways, in recent years. In steady states, chirality (C) does not change with time-reversal operation, while chirality prime (C') denotes the breaking of time-reversal symmetry in addition to broken all mirror symmetries, combined with any spatial rotations. Various examples of magnetic chirality and chirality prime and their emergent phenomena, such as self-inductance, directional nonreciprocity in magnetic fields, currentinduced magnetization, chirality-selective spin-polarized current, Schwinger scattering, magneto-optical Kerr effect, linear magnetoelectricity, and chiral tunneling will be discussed. Many of these phenomena can be understood with one hypothesis on “kinetomagnetism in chiral systems” that I will present. Some of these exotic phenomena have been recently observed, while many others require experimental confirmation in the future.

上一条:物理学科Seminar第673讲 手性,相对论效应与粒子物理的标准模型

下一条:物理学科Seminar第671讲 一种新的基于对称模式的手性描述符。手性有机-无机杂化金属卤化物的应用

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