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Measurement-Altered Ising Quantum Criticality

Sara Murciano, Pablo Sala, Yue Liu, Roger S. K. Mong, Jason Alicea

2023Physical Review X42 citationsDOIOpen Access PDF

Abstract

Quantum critical systems constitute appealing platforms for exploring novel measurement-induced phenomena due to their innate sensitivity to perturbations. We study the impact of measurements on paradigmatic Ising quantum-critical chains using an explicit protocol, whereby correlated ancillae are entangled with the critical chain and then projectively measured. Using a perturbative analytic framework supported by extensive numerical simulations, we demonstrate that measurements can qualitatively alter critical correlations in a manner dependent on the choice of entangling gate, ancilla measurement basis, measurement outcome, and nature of ancilla correlations. We further show that measurement-altered Ising criticality can be pursued surprisingly efficiently in experiments featuring of order 100 qubits by postselecting for high-probability measurement outcomes or, in certain cases, by averaging observables separately over measurement outcomes residing in distinct symmetry sectors. Our framework naturally adapts to more exotic quantum-critical points and highlights opportunities for realization in noisy intermediate-scale quantum hardware and in Rydberg arrays.

Topics & Concepts

PhysicsIsing modelCriticalityQuantumStatistical physicsObservableTheoretical physicsQubitQuantum mechanicsNuclear physicsQuantum many-body systemsQuantum and electron transport phenomenaQuantum Information and Cryptography
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