Quantum tunneling and anti-tunneling across entropic barriers
- URL: http://arxiv.org/abs/2505.03948v1
- Date: Tue, 06 May 2025 19:55:55 GMT
- Title: Quantum tunneling and anti-tunneling across entropic barriers
- Authors: Paolo Malgaretti, Francesco Petiziol, Alexander Schnell,
- Abstract summary: We study the dynamics of a quantum particle in a constricted two-dimensional channel.<n>We analyze how the onset of quantum corrections impacts the (semi-intuitive) high-temperature behaviour, as temperature is lowered.
- Score: 44.99833362998488
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: We study the dynamics of a quantum particle in a constricted two-dimensional channel and analyze how the onset of quantum corrections impacts the (semi-)classical high-temperature behaviour, as temperature is lowered. We characterize both equilibrium and non-equilibrium (transport) properties of the system, considering the case of a narrow and disorder-free channel. Counterintuitively, we find that quantum corrections do not monotonically enhance the particle current as the temperature is lowered, as naively expected from the activation of coherent tunnelling, but they rather inhibit transport at intermediate temperatures, increasing the effective free-energy barrier. We illustrate this ``anti-tunnelling'' effect numerically by computing the non-equilibrium steady-state of a quantum master equation describing the system, and confirm it analytically by adopting the Quantum Smoluchowski limit.
Related papers
- Impact of quantum coherence on the dynamics and thermodynamics of quenched free fermions coupled to a localized defect [0.0]
We investigate the non-equilibrium quantum dynamics and thermodynamics of free fermions suddenly coupled to a localized defect in a harmonic trap.<n>We show that initializing the system in a coherent superpositions of energy eigenstates leads to non-classical features.
arXiv Detail & Related papers (2025-08-02T17:21:19Z) - Measurement-Induced Dynamical Quantum Thermalization [0.0]
We study how the measurement of one or more observables subdivides the system into observed and non-observed Hilbert subspaces.<n>We find this to be more generally fulfilled than in the scenario of the eigenstate thermalization hypothesis (ETH)
arXiv Detail & Related papers (2025-05-27T00:08:55Z) - Inverse Superconductor-Insulator Transition in Weakly Monitored Josephson Junction Arrays [0.0]
Control and manipulation of quantum states by measurements and bath engineering in open quantum systems have emerged as new paradigms in many-body physics.<n>We show how repetitive monitoring through continuous weak measurements and feedback can transform an insulating state in these systems to a superconductor and vice versa.
arXiv Detail & Related papers (2024-12-05T19:00:17Z) - Divergence of thermalization rates driven by the competition between finite temperature and quantum coherence [10.256367888517563]
We observe a divergence of thermalization rates of quantum matters when the temperature approaches zero.
We find that the quantum coherence and bosonic stimulation of superfluid induces the divergence while the finite temperature and the many-body interactions are suppressing the divergence.
arXiv Detail & Related papers (2024-10-30T02:10:29Z) - Limits for coherent optical control of quantum emitters in layered
materials [49.596352607801784]
coherent control of a two-level system is among the most essential challenges in modern quantum optics.
We use a mechanically isolated quantum emitter in hexagonal boron nitride to explore the individual mechanisms which affect the coherence of an optical transition under resonant drive.
New insights on the underlying physical decoherence mechanisms reveals a limit in temperature until which coherent driving of the system is possible.
arXiv Detail & Related papers (2023-12-18T10:37:06Z) - Observation of partial and infinite-temperature thermalization induced
by repeated measurements on a quantum hardware [62.997667081978825]
We observe partial and infinite-temperature thermalization on a quantum superconducting processor.
We show that the convergence does not tend to a completely mixed (infinite-temperature) state, but to a block-diagonal state in the observable basis.
arXiv Detail & Related papers (2022-11-14T15:18:11Z) - Demonstrating Quantum Microscopic Reversibility Using Coherent States of
Light [58.8645797643406]
We propose and experimentally test a quantum generalization of the microscopic reversibility when a quantum system interacts with a heat bath.
We verify that the quantum modification for the principle of microscopic reversibility is critical in the low-temperature limit.
arXiv Detail & Related papers (2022-05-26T00:25:29Z) - The quantum Otto cycle in a superconducting cavity in the non-adiabatic
regime [62.997667081978825]
We analyze the efficiency of the quantum Otto cycle applied to a superconducting cavity.
It is shown that, in a non-adiabatic regime, the efficiency of the quantum cycle is affected by the dynamical Casimir effect.
arXiv Detail & Related papers (2021-11-30T11:47:33Z) - Quantum fluctuations and correlations in open quantum Dicke models [0.0]
In the vicinity of ground-state phase transitions quantum correlations can display non-analytic behavior and critical scaling.
Here we consider as a paradigmatic setting the superradiant phase transition of the open quantum Dicke model.
We show that local dissipation, which cannot be treated within the commonly employed Holstein-Primakoff approximation, rather unexpectedly leads to an enhancement of collective quantum correlations.
arXiv Detail & Related papers (2021-10-25T18:15:05Z) - Taking the temperature of a pure quantum state [55.41644538483948]
Temperature is a deceptively simple concept that still raises deep questions at the forefront of quantum physics research.
We propose a scheme to measure the temperature of such pure states through quantum interference.
arXiv Detail & Related papers (2021-03-30T18:18:37Z) - Heat flow and noncommutative quantum mechanics in phase-space [0.0]
We show that by controlling the new constants introduced in the quantum theory, due to a deformed Heisenberg-Weyl algebra, the heat flow from the hot to the cold system may be enhanced.
We also give a brief discussion on the robustness of the second law of thermodynamics in the context of noncommutative quantum mechanics.
arXiv Detail & Related papers (2019-12-26T15:28:51Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.