Related papers: Instantaneous Sobolev Regularization for Dissipative Bosonic Dynamics

Instantaneous Sobolev Regularization for Dissipative Bosonic Dynamics

URL: http://arxiv.org/abs/2512.04066v1
Date: Wed, 03 Dec 2025 18:48:55 GMT
Title: Instantaneous Sobolev Regularization for Dissipative Bosonic Dynamics
Authors: Pablo Costa Rico, Paul Gondolf, Tim Möbus,
Abstract summary: We investigate quantum Markov semigroups on bosonic Fock space.<n>We identify a broad class of infinite-dimensional dissipative evolutions that exhibit Sobolev-regularization.
Score: 1.7205106391379026
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We investigate quantum Markov semigroups on bosonic Fock space and identify a broad class of infinite-dimensional dissipative evolutions that exhibit instantaneous Sobolev-regularization. Motivated by stability problems in quantum computation, we show that for certain Lindblad operators that are polynomials of creation and annihilation operators, the resulting dynamics immediately transform any initial state into one with finite expectation in all powers of the number operator. A key application is in the bosonic cat code, where we obtain explicit estimates in the trace norm for the speed of convergence. These estimates sharpen existing perturbative bounds at both short and long times, offering new analytic tools for assessing stability and error suppression in bosonic quantum information processing. For example, we improve the strong exponential convergence of the (shifted) $2$-photon dissipation to its fixed point to the uniform topology.

Related papers

Instability of explicit time integration for strongly quenched dynamics with neural quantum states [0.0]
We investigate sources of numerical instabilities that can appear in the simulation of quantum dynamics with neural networks.<n>We uncover a quenching strength that leads to a numerical breakdown in the absence of Monte Carlo noise.<n>We conclude that alternative methods need to be developed for simulating strongly nonequilibrium quantum dynamics with neural-network quantum states.
arXiv Detail & Related papers (2025-07-23T11:25:19Z)
QAMA: Scalable Quantum Annealing Multi-Head Attention Operator for Deep Learning [48.12231190677108]
Quantum Annealing Multi-Head Attention (QAMA) is proposed, a novel drop-in operator that reformulates attention as an energy-based Hamiltonian optimization problem.<n>In this framework, token interactions are encoded into binary quadratic terms, and quantum annealing is employed to search for low-energy configurations.<n> Empirically, evaluation on both natural language and vision benchmarks shows that, across tasks, accuracy deviates by at most 2.7 points from standard multi-head attention.
arXiv Detail & Related papers (2025-04-15T11:29:09Z)
Dissipation-Induced Threshold on Integrability Footprints [1.0159681653887238]
We study how signatures of integrability fade as dissipation strength increases.<n>We estimate the critical dissipation threshold beyond which these clusters disappear.<n>Our results provide a quantitative picture of how noise gradually erases the footprints of integrability in open quantum systems.
arXiv Detail & Related papers (2025-04-14T14:16:37Z)
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)
Energy preserving evolutions over Bosonic systems [1.7478203318226315]
We investigate perturbations of quantum dynamical semigroups that operate on continuous variable systems.<n>We provide a new scheme for deriving continuity bounds on the energy-constrained capacities of Markovian perturbations of quantum dynamical semigroups.
arXiv Detail & Related papers (2023-07-25T20:13:30Z)
Universality of critical dynamics with finite entanglement [68.8204255655161]
We study how low-energy dynamics of quantum systems near criticality are modified by finite entanglement. Our result establishes the precise role played by entanglement in time-dependent critical phenomena.
arXiv Detail & Related papers (2023-01-23T19:23:54Z)
Exact bistability and time pseudo-crystallization of driven-dissipative fermionic lattices [0.0]
We prove bistability in precisely the quantum fluctuations. Surprisingly, rather than destroying bistability, the quantum fluctuations themselves exhibit bistability. Our work provides to the best of our knowledge the first example of a provably bistable quantum optical system.
arXiv Detail & Related papers (2022-02-18T19:00:00Z)
Dynamics of Fluctuations in Quantum Simple Exclusion Processes [0.0]
We consider the dynamics of fluctuations in the quantum asymmetric simple exclusion process (Q-ASEP) with periodic boundary conditions. We show that fluctuations of the fermionic degrees of freedom obey evolution equations of Lindblad type, and derive the corresponding Lindbladians. We carry out a detailed analysis of the steady states and slow modes that govern the late time behaviour and show that the dynamics of fluctuations of observables is described in terms of closed sets of coupled linear differential-difference equations.
arXiv Detail & Related papers (2021-07-06T15:02:58Z)
Continuous-time dynamics and error scaling of noisy highly-entangling quantum circuits [58.720142291102135]
We simulate a noisy quantum Fourier transform processor with up to 21 qubits. We take into account microscopic dissipative processes rather than relying on digital error models. We show that depending on the dissipative mechanisms at play, the choice of input state has a strong impact on the performance of the quantum algorithm.
arXiv Detail & Related papers (2021-02-08T14:55:44Z)
The role of boundary conditions in quantum computations of scattering observables [58.720142291102135]
Quantum computing may offer the opportunity to simulate strongly-interacting field theories, such as quantum chromodynamics, with physical time evolution. As with present-day calculations, quantum computation strategies still require the restriction to a finite system size. We quantify the volume effects for various $1+1$D Minkowski-signature quantities and show that these can be a significant source of systematic uncertainty.
arXiv Detail & Related papers (2020-07-01T17:43:11Z)
Einselection from incompatible decoherence channels [62.997667081978825]
We analyze an open quantum dynamics inspired by CQED experiments with two non-commuting Lindblad operators. We show that Fock states remain the most robust states to decoherence up to a critical coupling.
arXiv Detail & Related papers (2020-01-29T14:15:19Z)

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