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Main Authors: Di Fresco, Giovanni, Coraggio, Aldo, Silva, Alessandro, Gambassi, Andrea
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2601.12102
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author Di Fresco, Giovanni
Coraggio, Aldo
Silva, Alessandro
Gambassi, Andrea
author_facet Di Fresco, Giovanni
Coraggio, Aldo
Silva, Alessandro
Gambassi, Andrea
contents The quantum first-detection problem concerns the statistics of the time at which a system, subject to repeated measurements, is observed in a prescribed target state for the first time. Unlike its classical counterpart, the measurement back action intrinsic to quantum mechanics may profoundly alter the system dynamics. Here we show that it induces a distinct change in the statistics of the first-detection time. For a quantum particle in one spatial dimension subject to stroboscopic measurements, we observe an algebraic decay of the probability of the first-detection time if the particle is free, an exponential decay in the presence of a confining potential, and a time-dependent crossover between these behaviors if the particle is partially confined. This crossover reflects the purely quantum nature of the detection process, which fundamentally distinguishes it from the first-passage problem in classical systems.
format Preprint
id arxiv_https___arxiv_org_abs_2601_12102
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Measurement-induced crossover in quantum first-detection times
Di Fresco, Giovanni
Coraggio, Aldo
Silva, Alessandro
Gambassi, Andrea
Statistical Mechanics
Quantum Physics
The quantum first-detection problem concerns the statistics of the time at which a system, subject to repeated measurements, is observed in a prescribed target state for the first time. Unlike its classical counterpart, the measurement back action intrinsic to quantum mechanics may profoundly alter the system dynamics. Here we show that it induces a distinct change in the statistics of the first-detection time. For a quantum particle in one spatial dimension subject to stroboscopic measurements, we observe an algebraic decay of the probability of the first-detection time if the particle is free, an exponential decay in the presence of a confining potential, and a time-dependent crossover between these behaviors if the particle is partially confined. This crossover reflects the purely quantum nature of the detection process, which fundamentally distinguishes it from the first-passage problem in classical systems.
title Measurement-induced crossover in quantum first-detection times
topic Statistical Mechanics
Quantum Physics
url https://arxiv.org/abs/2601.12102