Controlling measurement-induced phase transitions with tunable detector coupling Article Swipe

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Universality (dynamical systems) Quantum entanglement Detector Phase transition Physics Statistical physics Coupling (piping) Topology (electrical circuits) Percolation (cognitive psychology) Quantum Operator (biology) Quantum mechanics Optics Mathematics Materials science Chemistry Transcription factor Combinatorics Biochemistry Gene Neuroscience Biology Metallurgy Repressor

Ritu Nehra , Alessandro Romito , Dganit Meidan ·

YOU? · · 2024 · Open Access · · DOI: https://doi.org/10.48550/arxiv.2404.07918 · OA: W4394782230

We study the evolution of a quantum many-body system driven by two competing measurements, which induces a topological entanglement transition between two distinct area law phases. We employ a positive operator-valued measurement with variable coupling between the system and detector within free fermion dynamics. This approach allows us to continuously track the universal properties of the transition between projective and continuous monitoring. Our findings suggest that the percolation universality of the transition in the projective limit is unstable when the system-detector coupling is reduced.