Litcius/Paper detail

Measurement-Induced Phases of Matter Require Feedback

Aaron J. Friedman, Oliver Hart, Rahul Nandkishore

2023PRX Quantum35 citationsDOIOpen Access PDF

Abstract

We explore universality and phases of matter in hybrid quantum dynamics combining chaotic time evolution and projective measurements. We develop a unitary representation of measurements based on the Stinespring theorem, which we crucially identify with the time evolution of the system and measurement apparatus, affording significant technical advantages and conceptual insight into hybrid dynamics. We diagnose spectral properties in the presence of measurements for the first time, along with standard, experimentally tractable probes of phase structure, finding no nontrivial effects due to measurements in the absence of feedback. We also establish that nonlinearity in the density matrix is neither sufficient nor necessary to see a transition, and instead identify utilization of the measurement outcomes (i.e., &ldquo;feedback&rdquo;) as the crucial ingredient. After reviewing the definition of a phase of matter, we identify nontrivial orders in <em>adaptive</em> hybrid dynamics&mdash;in which measurement outcomes determine future unitary gates&mdash;finding a genuine measurement-induced absorbing-state phase transition in an adaptive quantum East model. In general, we find that only deterministic and constrained Haar-random dynamics with active feedback and without continuous symmetries can realize genuine, measurement-induced phases of matter. &nbsp;

Topics & Concepts

Unitary stateComputer scienceStatistical physicsUniversality (dynamical systems)State of matterTheoretical physicsTheoretical computer sciencePhysicsQuantum mechanicsLawPolitical scienceQuantum many-body systemsAdvanced Thermodynamics and Statistical MechanicsQuantum Information and Cryptography