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Cascade of isospin phase transitions in Bernal bilayer graphene at zero magnetic field

Authors :
de la Barrera, Sergio C.
Aronson, Samuel
Zheng, Zhiren
Watanabe, Kenji
Taniguchi, Takashi
Ma, Qiong
Jarillo-Herrero, Pablo
Ashoori, Raymond
Publication Year :
2021

Abstract

Emergent phenomena arising from the collective behavior of electrons is generally expected when Coulomb interactions dominate over the kinetic energy, as in delocalized quasiparticles in highly degenerate flat bands. Bernal-stacked bilayer graphene intrinsically supports a pair of flat bands predicted to host a variety of spontaneous broken-symmetry states arising from van Hove singularities and a four-fold spin-valley (isospin) degeneracy. Here, we show that ultra-clean samples of bilayer graphene display a cascade of symmetry-broken states with spontaneous and spin and valley ordering at zero magnetic field. Using capacitive sensing in a dual-gated geometry, we tune the carrier density and electric displacement field independently to explore the phase space of transitions and probe the character of the isospin order. Itinerant ferromagnetic states emerge near the conduction and valence band edges with complete spin and valley polarization and a high degree of displacement field tunability. At larger hole densities, two-fold degenerate quantum oscillations manifest in an additional broken symmetry state that is enhanced by the application of an in-plane magnetic field. Both types of symmetry-broken states display enhanced layer polarization at low temperatures, suggesting a coupling to the layer pseudospin degree of freedom in the electronic wavefunctions. Notably, the zero-field spontaneous symmetry breaking reported here emerges in the absence of a moir\'e superlattice and is intrinsic to natural graphene bilayers. Thus, we demonstrate that the tunable bands of bilayer graphene represent a related, but distinct approach to produce flat band collective behavior, complementary to engineered moir\'e structures.

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2110.13907
Document Type :
Working Paper
Full Text :
https://doi.org/10.1038/s41567-022-01616-w