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Exponentially-enhanced quantum sensing with non-Hermitian lattice dynamics

Alexander McDonald, Aashish A. Clerk

2020Nature Communications207 citationsDOIOpen Access PDF

Abstract

Non-Hermitian systems exhibit markedly different phenomena than their conventional Hermitian counterparts. Several such features, such as the non-Hermitian skin effect, are only present in spatially extended systems. Potential applications of these effects in many-mode systems however remains largely unexplored. Here, we study how unique features of non-Hermitian lattice systems can be harnessed to improve Hamiltonian parameter estimation in a fully quantum setting. While the quintessential non-Hermitian skin effect does not provide any distinct advantage, alternate effects yield dramatic enhancements. We show that certain asymmetric non-Hermitian tight-binding models with a [Formula: see text] symmetry yield a pronounced sensing advantage: the quantum Fisher information per photon increases exponentially with system size. We find that these advantages persist in regimes where non-Markovian and non-perturbative effects become important. Our setup is directly compatible with a variety of quantum optical and superconducting circuit platforms, and already yields strong enhancements with as few as three lattice sites.

Topics & Concepts

PhysicsQuantumHamiltonian (control theory)Lattice (music)PhotonStatistical physicsQuantum systemSuperconductivityQuantum information processingQuantum mechanicsQuantum fluctuationQuantum dynamicsExponential growthQuantum informationHermitian matrixCondensed matter physicsExponential functionQuantum dotOpen quantum systemSymmetry (geometry)Model systemQuantum computerTranslational symmetryQuantum opticsVariety (cybernetics)Square latticeSymmetry breakingCrystal systemQuantum phasesQuantum Mechanics and Non-Hermitian PhysicsMechanical and Optical ResonatorsAdvanced Physical and Chemical Molecular Interactions
Exponentially-enhanced quantum sensing with non-Hermitian lattice dynamics | Litcius