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Spontaneous momentum polarization and diodicity in Bernal bilayer graphene

Authors :
Lin, Jiang-Xiazi
Wang, Yibang
Zhang, Naiyuan J.
Watanabe, Kenji
Taniguchi, Takashi
Fu, Liang
Li, J. I. A.
Publication Year :
2023

Abstract

The low-temperature phase diagram of multilayer graphene heterostructures is largely defined by the exchange-driven instability that lifts the four-fold isospin degeneracy. Such instability gives rise to the quarter- and half-metal phases, which are key to our understanding of other emergent phenomena. Recent theoretical works shed light on a new type of Coulomb-driven instability. It is proposed that the exchange interaction between trigonal-warping-induced Fermi pockets could induce charge carriers to condense into one of the Fermi pockets, giving rise to a net polarization in the momentum space. Here, we report the observation of spontaneous momentum polarization in Bernal bilayer graphene using angle-resolved nonlinear transport measurement at the second-harmonic frequency. With excellent angular precision, we show that the polar axis of the momentum polarization is tunable with varying carrier density, electric field, and magnetic field. The dominating influence of the momentum-space instability reveals a natural connection between broken symmetries, and the isospin degeneracy lifting in the half- and quarter-metal phases.

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2302.04261
Document Type :
Working Paper