YingKang Chen scite author profile

Exploiting novel aspects of the quantum geometry of charged particles in a magnetic field via gauge-invariant variables, we provide tangible connections between the response of quantum Hall fluids to non-uniform electric fields and the characteristic geometry of electronic motion in the presence of magnetic and electric fields. The geometric picture we provide motivates the following conjecture: non-uniform electric fields mimic the presence of spatial curvature. Consequently, the gravitational coupling constant also appears in the charge response to non-uniform electric fields.

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Gravitational Response of Topological Quantum States of Matter

Jiang¹,

Chen²,

Biswas³

2022

Preprint

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Identifying novel topological properties of topological quantum states of matter, such as exemplified by the quantized Hall conductance, is a valuable step towards realizing materials with attractive topological attributes that guarantee their imperviousness to realistic imperfections, disorder and environmental disturbances. Is the gravitational coupling coefficient of topological quantum states of matter a promising candidate? Substantially building on well established results for quantum Hall states, herein we report that a large class of lattice topological states of matter exhibit gravitational response, i.e., charge response to spatial curvature, which is characterized by a topologically quantized coupling constant. Remarkably, the charge-gravity relationship remains linear in the curvature, up to the maximum curvature achievable on the lattice, demonstrating absence of higher order nonlinear response. Our findings facilitate articulating the physical principles underlying the topological quantization of the gravitational coupling constant, in analogy with the insights offered by the Chern number description of the quantized Hall conductance.

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YingKang Chen

Gauge-invariant variables reveal the quantum geometry of fractional quantum Hall states

Gravitational response of topological quantum states of matter

Geometric response of quantum Hall states to electric fields

Gravitational Response of Topological Quantum States of Matter

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