Quantum parameter estimation with many-body fermionic systems and application to the Hall effect

Quantum parameter estimation with many-body fermionic systems and application to the Hall effect

We calculate the quantum Fisher information for a generic many-body fermionic system in a pure state depending on a parameter. We discuss the situations where the parameter is imprinted in the basis states, in the state coefficients, or both. In the case where the parameter dependence of coefficient...

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Bibliographic Details
Published in:SciPost physics Vol. 16; no. 3; p. 085
Main Authors: Giraud, Olivier, Goerbig, Mark-Oliver, Braun, Daniel
Format: Journal Article
Language:English
Published: SciPost 01-03-2024
Online Access:Get full text
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Summary:We calculate the quantum Fisher information for a generic many-body fermionic system in a pure state depending on a parameter. We discuss the situations where the parameter is imprinted in the basis states, in the state coefficients, or both. In the case where the parameter dependence of coefficients results from a Hamiltonian evolution, we derive a particularly simple expression for the quantum Fisher information. We apply our findings to the quantum Hall effect, and evaluate the quantum Fisher information associated with the optimal measurement of the magnetic field for a system in the ground state of the effective Hamiltonian. The occupation of electron states with high momentum enforced by the Pauli principle leads to a ``super-Heisenberg’’ scaling of the sensitivity with a power law that depends on the geometry of the sensor.
ISSN:2542-4653
2542-4653
DOI:10.21468/SciPostPhys.16.3.085