Related papers: Gravitational quantum speed limit

Gravitational quantum speed limit

URL: http://arxiv.org/abs/2412.03714v1
Date: Wed, 04 Dec 2024 21:04:15 GMT
Title: Gravitational quantum speed limit
Authors: Nicola Pranzini, Lorenzo Maccone,
Abstract summary: We find that the quantum mechanicalstam-Tamm and Margolus-Levitin bounds can be improved by superposing a spherically symmetric, static andally flat spacetime.<n>We discuss the feasibility and significance of measuring times via these superpositions.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: While playing an important role in the foundations of quantum theory, Quantum Speed Limits (QSL) have no role in discussions about the search for quantum gravity. We fill this gap by analysing what QSL arises when superposing spherically symmetric masses in canonical quantum gravity. By this procedure, we find that the quantum mechanical Mandelstam-Tamm and Margolus-Levitin bounds can be improved by superposing a spherically symmetric, static and asymptotically flat spacetime between states with different ADM energies and mass densities. We discuss the feasibility and significance of measuring times via these superpositions.

Related papers

From Quantum-Mechanical Acceleration Limits to Upper Bounds on Fluctuation Growth of Observables in Unitary Dynamics [0.0]
Quantum Speed Limits (QSLs) are fundamentally linked to the tenets of quantum mechanics, particularly the energy-time uncertainty principle. Recently, the notion of a quantum acceleration limit has been proposed for any unitary time evolution of quantum systems governed by arbitrary nonstationary Hamiltonians.
arXiv Detail & Related papers (2025-03-31T22:14:16Z)
Many-body quantum geometry in time-dependent quantum systems with emergent quantum field theory instantaneously [13.437981636279718]
We study many-body quantum geometric effects in time-dependent system with emergent quantum integrable field theory instantaneously. Our results unveil telltale quantum geometric signatures in time-dependent many-body systems, elucidating the intricate interplay between quantum geometry and dynamics.
arXiv Detail & Related papers (2025-03-24T07:09:04Z)
Attractive-repulsive interaction in coupled quantum oscillators [14.37149160708975]
We find an interesting symmetry-breaking transition from quantum limit cycle oscillation to quantum inhomogeneous steady state. This transition is contrary to the previously known symmetry-breaking transition from quantum homogeneous to inhomogeneous steady state. Remarkably, we find the generation of entanglement associated with the symmetry-breaking transition that has no analogue in the classical domain.
arXiv Detail & Related papers (2024-08-23T10:45:19Z)
Quantum coarsening and collective dynamics on a programmable quantum simulator [27.84599956781646]
We experimentally study collective dynamics across a (2+1)D Ising quantum phase transition. By deterministically preparing and following the evolution of ordered domains, we show that the coarsening is driven by the curvature of domain boundaries. We quantitatively explore these phenomena and further observe long-lived oscillations of the order parameter, corresponding to an amplitude (Higgs) mode.
arXiv Detail & Related papers (2024-07-03T16:29:12Z)
Table-top nanodiamond interferometer enabling quantum gravity tests [34.82692226532414]
We present a feasibility study for a table-top nanodiamond-based interferometer. By relying on quantum superpositions of steady massive objects our interferometer may allow exploiting just small-range electromagnetic fields.
arXiv Detail & Related papers (2024-05-31T17:20:59Z)
The quantum gravity seeds for laws of nature [0.31570310818616687]
We discuss the challenges that the standard (Hu) accounts of laws face within the framework of quantum gravity where space and time may not be fundamental. We highlight the roles of quantum entanglement, quantum transition amplitudes and quantum causal histories. These features also stress the fruitful overlap between quantum gravity and quantum information theory.
arXiv Detail & Related papers (2024-04-18T15:12:52Z)
System-environment dynamics of GHZ-like states in noninertial frames [14.401323451758975]
Quantum coherence, quantum entanglement and quantum nonlocality are important resources in quantum information precessing. We study the dynamical evolution of the three-qubit GHZ-like states in non-inertial frame when one and/or two qubits undergo decoherence.
arXiv Detail & Related papers (2022-12-30T03:36:48Z)
Quantum conformal symmetries for spacetimes in superposition [0.0]
We build an explicit quantum operator that can map states describing a quantum field on a superposition of spacetimes to states representing a quantum field with a superposition of masses on a Minkowski background.<n>It can be used to import the phenomenon of particle production in curved spacetime to its conformally equivalent counterpart, thus revealing new features in modified Minkowski spacetime.
arXiv Detail & Related papers (2022-06-30T18:00:02Z)
Quantum signatures of black hole mass superpositions [0.0]
We apply our approach to analyze the dynamics of a detector in a spacetime generated by a BTZ black hole in a superposition of masses. We find that the detector exhibits signatures of quantum-gravitational effects corroborating Bekenstein's seminal conjecture concerning the quantized mass spectrum of black holes in quantum gravity.
arXiv Detail & Related papers (2021-11-26T05:20:25Z)
Position-dependent mass in strong quantum gravitational background fields [0.0]
We study the dynamics of a particle with position-dependent mass trapped in an infinite square well. We show that, by increasing the quantum gravitational effect, the PDM of the particle increases and induces deformations of the quantum energy levels.
arXiv Detail & Related papers (2020-12-18T23:18:32Z)
Unraveling the topology of dissipative quantum systems [58.720142291102135]
We discuss topology in dissipative quantum systems from the perspective of quantum trajectories. We show for a broad family of translation-invariant collapse models that the set of dark state-inducing Hamiltonians imposes a nontrivial topological structure on the space of Hamiltonians.
arXiv Detail & Related papers (2020-07-12T11:26:02Z)

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