Related papers: Lorentz Invariant Master Equation for Quantum Systems

Lorentz Invariant Master Equation for Quantum Systems

URL: http://arxiv.org/abs/2512.19346v1
Date: Mon, 22 Dec 2025 12:45:11 GMT
Title: Lorentz Invariant Master Equation for Quantum Systems
Authors: Pranav Vaidhyanathan, Gerard J. Milburn,
Abstract summary: Special relativity denies the existence of a preferred clock.<n>We derive a Lorentz-invariant description of irreversibility for quantum fields.<n>We show that the finite resolution of the physical clock acts as a covariant regulator.
Score: 0.0
License: http://creativecommons.org/licenses/by-nc-nd/4.0/
Abstract: Irreversibility implies a preferred flow of time, yet special relativity denies the existence of a preferred clock. This tension has long obstructed the formulation of a relativistic master equation: standard Markovian approximations either break Lorentz covariance, trigger catastrophic vacuum heating, or depend arbitrarily on the observer's foliation. In this work, we derive a Lorentz-invariant description of irreversibility for quantum fields. We take an approach that explicitly models the measurements required to observe irreversible dynamics. Instead of evolving the system along an abstract geometric time parameter, we anchor the dynamics to a physical, relational scalar clock field. Using a relational Tomonaga-Schwinger framework, we derive a local, non-Markovian master equation that is manifestly covariant and completely positive. We show that the finite resolution of the physical clock acts as a covariant regulator, preventing the vacuum instability that plagues white-noise models. This framework demonstrates that a consistent relativistic theory of decay exists, provided the reference frame is treated as a dynamical quantum resource rather than a gauge choice. In a gravitating context, the resulting dynamics is described by a hybrid classical-quantum (CQ) evolution that remains completely positive and trace preserving (CPTP).

Related papers

Time Symmetry, Retrocausality, and Emergent Collapse: The Tlalpan Interpretation of Quantum Mechanics [51.56484100374058]
The Tlalpan Interpretation (QTI) proposes that the wavefunction collapse is not a primitive, axiomatic rule but an emergent phenomenon.<n>The novelty of QTI lies in its embedding of collapse within the conceptual language of critical phenomena in statistical physics.
arXiv Detail & Related papers (2025-08-25T20:30:56Z)
Time-dependent Neural Galerkin Method for Quantum Dynamics [39.63609604649394]
We introduce a classical computational method for quantum dynamics that relies on a global-in-time variational principle.<n>Our scheme computes the entire state trajectory over a finite time window by minimizing a loss function that enforces the Schr"odinger's equation.<n>We showcase the method by simulating global quantum quenches in the paradigmatic Transverse-Field Ising model in both 1D and 2D.
arXiv Detail & Related papers (2024-12-16T13:48:54Z)
Unitary description of the Jaynes-Cummings model under fractional-time dynamics [0.0]
We show that a unitary evolution can be achieved for a traceless two-level Hamiltonian.<n>We take into account the fractional-order parameter $alpha$ and its effect in unitary quantum dynamics.
arXiv Detail & Related papers (2024-09-09T17:44:31Z)
Lorentz covariant physical Brownian motion: Classical and quantum [0.0]
We re-examine the Goldstein-Kacc velocity switching model from two points of view. We prove that the forward and backward Chapman-Kolmogorov equations of the process are Lorentz covariant. We verify that transitions between states with disjoint supports in space-time cannot occur.
arXiv Detail & Related papers (2024-07-12T00:49:36Z)
Transient dynamics of the quantum Stuart-Landau oscillator [0.27998963147546146]
We investigate the transient dynamics of a quantum system exhibiting a limit cycle and synchronization.<n>To quantify the evolution speed, we examined the system's Lindbladian spectra, particularly the Liouvillian gap.<n>This study provides a deeper insight into the transient behavior of self-sustained quantum systems.
arXiv Detail & Related papers (2024-06-18T07:05:11Z)
Real-time dynamics of false vacuum decay [49.1574468325115]
We investigate false vacuum decay of a relativistic scalar field in the metastable minimum of an asymmetric double-well potential. We employ the non-perturbative framework of the two-particle irreducible (2PI) quantum effective action at next-to-leading order in a large-N expansion.
arXiv Detail & Related papers (2023-10-06T12:44:48Z)
Measurement events relative to temporal quantum reference frames [44.99833362998488]
We compare two consistent approaches to the Page-Wootters formalism to clarify the operational meaning of evolution and measurements.<n>We show that for non-ideal clocks, the purified measurement approach yields a time non-local evolution equation.<n>We argue that these approaches describe operationally distinct situations.
arXiv Detail & Related papers (2023-08-21T18:26:12Z)
Quantum dynamics corresponding to chaotic BKL scenario [62.997667081978825]
Quantization smears the gravitational singularity avoiding its localization in the configuration space. Results suggest that the generic singularity of general relativity can be avoided at quantum level.
arXiv Detail & Related papers (2022-04-24T13:32:45Z)
On the Problem of Time(s) in Quantum Mechanics and Quantum Gravity: recent integrating developments and outlook [0.0]
How to restore time is the Problem of Time(s) It introduces an intrinsic time property tau associated with the mass of the system. It invalidates Pauli's objection to the existence of a time operator.
arXiv Detail & Related papers (2021-04-20T17:51:05Z)
Equivalence of approaches to relational quantum dynamics in relativistic settings [68.8204255655161]
We show that the trinity' of relational quantum dynamics holds in relativistic settings per frequency superselection sector. We ascribe the time according to the clock subsystem to a POVM which is covariant with respect to its (quadratic) Hamiltonian.
arXiv Detail & Related papers (2020-07-01T16:12:24Z)

This list is automatically generated from the titles and abstracts of the papers in this site.