物理学科Seminar第595讲 约瑟夫森二极管效应的理论研究

创建时间:  2022/11/30  龚惠英   浏览次数:   返回

报告题目 (Title):General Theory of Josephson Diodes(约瑟夫森二极管效应的理论研究)

报告人 (Speaker):张燚 特聘副研究员(上海大学)

报告时间 (Time):2022年12月2日 (周五) 10:00-12:00

报告地点 (Place):校本部E408,线上腾讯会议(会议ID:458-852-806)

邀请人(Inviter):物理系青联

主办部门:理学院物理系

报告摘要: Motivated by recent progress in the superconductivity nonreciprocal phenomena, we study the general theory of Josephson diodes. The central ingredient for Josephson diodes is the asymmetric proximity process inside the tunneling barrier. From the symmetry breaking point of view, there are two types of Josephson diodes, inversion breaking and time-reversal breaking. For the inversion breaking case, applying voltage bias could effectively tune the proximity process like the voltage-dependent Rashba coupling giving rises to I_c (V)≠I_c (-V). For the time-reversal breaking case, the magnetic field and current flow could adjust the internal time-reversal breaking field like magnetism or time-reversal breaking electron-electron pairing, which leads to I_c (B)≠I_c (-B) or I_(c+)≠I_(c-). All these results provide a complete understanding and the general principles of realizing Josephson diodes, especially the recently found NbSe2/Nb3Br8/NbSe2 Josephson diodes.

上一条:数学学科Seminar第2333讲 斜交积的莫比乌斯正交性猜想

下一条:数学学科Seminar第2332讲 Two novel deep neural networks methods for high dimensional partial differential equations


物理学科Seminar第595讲 约瑟夫森二极管效应的理论研究

创建时间:  2022/11/30  龚惠英   浏览次数:   返回

报告题目 (Title):General Theory of Josephson Diodes(约瑟夫森二极管效应的理论研究)

报告人 (Speaker):张燚 特聘副研究员(上海大学)

报告时间 (Time):2022年12月2日 (周五) 10:00-12:00

报告地点 (Place):校本部E408,线上腾讯会议(会议ID:458-852-806)

邀请人(Inviter):物理系青联

主办部门:理学院物理系

报告摘要: Motivated by recent progress in the superconductivity nonreciprocal phenomena, we study the general theory of Josephson diodes. The central ingredient for Josephson diodes is the asymmetric proximity process inside the tunneling barrier. From the symmetry breaking point of view, there are two types of Josephson diodes, inversion breaking and time-reversal breaking. For the inversion breaking case, applying voltage bias could effectively tune the proximity process like the voltage-dependent Rashba coupling giving rises to I_c (V)≠I_c (-V). For the time-reversal breaking case, the magnetic field and current flow could adjust the internal time-reversal breaking field like magnetism or time-reversal breaking electron-electron pairing, which leads to I_c (B)≠I_c (-B) or I_(c+)≠I_(c-). All these results provide a complete understanding and the general principles of realizing Josephson diodes, especially the recently found NbSe2/Nb3Br8/NbSe2 Josephson diodes.

上一条:数学学科Seminar第2333讲 斜交积的莫比乌斯正交性猜想

下一条:数学学科Seminar第2332讲 Two novel deep neural networks methods for high dimensional partial differential equations