Tuesday September 3, 2:00 pm (Paris time)
Electrical Breakdown of Excitonic Insulators
By Xi Dai, Department of Physics, The Hongkong University of Science and Technology, Hong Kong, China.
At LPEM next week at ESPCI, Room Charpak, entrance building, ground floor.
ID: 834 4482 9053
Passcode: DJThouless
Passcode: DJThouless
Electrical Breakdown of Excitonic Insulators, Yuelin Shao1 and Xi Dai2
1 Beijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China
2 Department of Physics, The Hongkong University of Science and Technology, Clear Water Bay, Kowloon 999077, Hong Kong, China.
In this paper, we propose a new electrical breakdown mechanism for exciton insulators in the BCS limit, which differs fundamentally from the Zener breakdown mechanism observed in traditional band insulators. Our new mechanism results from the instability of the many-body ground state for exciton condensation, caused by the strong competition between the polarization and condensation energies in the presence of an electric field. We refer to this mechanism as “many-body breakdown”. To investigate this new mechanism, we propose a BCS-type trial wave function under finite electric fields and use it to study the many-body breakdown numerically. Our results reveal two different types of electric breakdown behavior. If the system size is larger than a critical value, the Zener tunneling process is first turned on when an electrical field is applied, but the excitonic gap remains until the field strength reaches the critical value of the many-body breakdown, after which the excitonic gap disappears and the system becomes a highly conductive metallic state. However, if the system size is much smaller than the critical value, the intermediate tunneling phase disappears since the many-body breakdown happens before the onset of Zener tunneling. The sudden disappearance of the local gap leads to an “off-on” feature in the current-voltage (I − V ) curve, providing a straightforward way to distinguish excitonic insulators from normal insulators.
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