A Time-Symmetric Formulation of Quantum Measurement: Reinterpreting the Arrow of Time as Information Flow
- URL: http://arxiv.org/abs/2511.22191v1
- Date: Thu, 27 Nov 2025 07:57:40 GMT
- Title: A Time-Symmetric Formulation of Quantum Measurement: Reinterpreting the Arrow of Time as Information Flow
- Authors: Shin-ichi Inage,
- Abstract summary: This study proposes a time-symmetric framework for quantum measurement.<n>It restores microscopic reversibility at the level of the dynamical description.<n>It is shown to satisfy Spohn's inequality for the associated quantum Markov semigroup.
- Score: 0.0
- License: http://creativecommons.org/publicdomain/zero/1.0/
- Abstract: This study proposes a time-symmetric framework for quantum measurement that restores microscopic reversibility at the level of the dynamical description while remaining compatible with causality and thermodynamic consistency. Instead of invoking a stochastic wavefunction collapse, the measurement process is modeled as a bidirectional informational update between a forward-evolving state and a backward-propagating effect, governed by a completely positive generator and its adjoint. Within this operator-based formalism, pre- and post-selected statistics are treated on an equal footing, yielding a unified description of both. The proposed scheme rigorously preserves complete positivity, normalization, and the no-signalling principle, and it is shown to satisfy Spohn's inequality for the associated quantum Markov semigroup, thereby ensuring non-negative entropy production within this setting. The framework admits a direct experimental interpretation across a range of scenarios, including weak measurements, EPR-Bell tests, homodyne detection, and photon counting. Furthermore, in the classical limit, the bidirectional update is demonstrated to reduce to the well-established Kalman filter and Rauch-Tung-Striebel (RTS) smoother used in classical estimation theory. These results support the view that the apparent temporal asymmetry of quantum measurement arises not from fundamental dynamical irreversibility, but from informational conditioning, specifically, the one-sided way in which measurement outcomes are incorporated into our description. In this sense, the arrow of time in measurement theory may be understood as an arrow of information.
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