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Direct measurement of discrete valley and orbital quantum numbers in bilayer graphene.


ABSTRACT: The high magnetic field electronic structure of bilayer graphene is enhanced by the spin, valley isospin, and an accidental orbital degeneracy, leading to a complex phase diagram of broken symmetry states. Here, we present a technique for measuring the layer-resolved charge density, from which we directly determine the valley and orbital polarization within the zero energy Landau level. Layer polarization evolves in discrete steps across 32 electric field-tuned phase transitions between states of different valley, spin, and orbital order, including previously unobserved orbitally polarized states stabilized by skew interlayer hopping. We fit our data to a model that captures both single-particle and interaction-induced anisotropies, providing a complete picture of this correlated electron system. The resulting roadmap to symmetry breaking paves the way for deterministic engineering of fractional quantum Hall states, while our layer-resolved technique is readily extendable to other two-dimensional materials where layer polarization maps to the valley or spin quantum numbers.The phase diagram of bilayer graphene at high magnetic fields has been an outstanding question, with orders possibly between multiple internal quantum degrees of freedom. Here, Hunt et al. report the measurement of the valley and orbital order, allowing them to directly reconstruct the phase diagram.

SUBMITTER: Hunt BM 

PROVIDER: S-EPMC5715057 | biostudies-literature | 2017 Oct

REPOSITORIES: biostudies-literature

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Direct measurement of discrete valley and orbital quantum numbers in bilayer graphene.

Hunt B M BM   Li J I A JIA   Zibrov A A AA   Wang L L   Taniguchi T T   Watanabe K K   Hone J J   Dean C R CR   Zaletel M M   Ashoori R C RC   Young A F AF  

Nature communications 20171016 1


The high magnetic field electronic structure of bilayer graphene is enhanced by the spin, valley isospin, and an accidental orbital degeneracy, leading to a complex phase diagram of broken symmetry states. Here, we present a technique for measuring the layer-resolved charge density, from which we directly determine the valley and orbital polarization within the zero energy Landau level. Layer polarization evolves in discrete steps across 32 electric field-tuned phase transitions between states o  ...[more]

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