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Host: Prof. Haibiao Zhou
Venue: TDLI Meeting Room N400
Tencent Meeting link: https://meeting.tencent.com/dm/9Ol2YzWipAvD
Meeting ID: 446572423, no password
Abstract:
Determining time-reversal symmetry (TRS) and chirality in the superconducting state and its relation to the symmetry and topology in the normal state are important issues in modern condensed matter physics. In this talk, I will introduce our observation of nonreciprocal superconducting critical currents (Ic) at zero applied magnetic field: Ic exhibits different values in opposite directions, in both flakes and micro-bridges of the kagome superconductor CsV3Sb5. Such spontaneous nonreciprocity requires TRS and inversion symmetry breakings. We find that the direction of asymmetry changes randomly in repeated sample heating to 300 K and cooling into the zero-resistance state, consistent with the expected behavior arising from spontaneous TRS breaking. Crucially, on applying a perpendicular magnetic field at 300 K, above the charge density wave (CDW) transition at TCDW in this compound and removing it to zero above the superconducting onset critical temperature (Tc), the direction of the Ic asymmetry consistently flips on changing the direction of the field. This magnetic field training ascertains that the CDW state above the superconducting transition temperature may also break the Z2 TRS and has a macroscopic directionality which can be changed by a uniform training field. The symmetry breaking continues into the superconducting state and gives rise to the nonreciprocal superconducting critical currents. These results indicate the loop-current CDW normal state with topological features in CsV3Sb5. Our observations provide direct evidence for the TRS breaking in kagome superconductor CsV3Sb5, and offer new insights into the mechanism of TRS breaking in kagome superconductors.
Biography:
Dr. Jun Ge is currently a postdoctoral researcher in Prof. Jian Wang’s group at department of Physics, Peking University. She received her B.S. from Beijing Institute of Technology in 2017 and her Ph.D. in physics from Peking University in 2022. After her doctoral studies, she continued as a postdoctoral researcher in Prof. Jian Wang’s group. Her main research interest focuses on the quantum transport properties of low-dimensional superconductors and topological materials.