Related papers: Constraints on extra dimensions theories from gravitational quantum barrier experiments

Constraints on extra dimensions theories from gravitational quantum barrier experiments

URL: http://arxiv.org/abs/2404.12496v1
Date: Thu, 18 Apr 2024 20:20:30 GMT
Title: Constraints on extra dimensions theories from gravitational quantum barrier experiments
Authors: J. M. Rocha, F. Dahia,
Abstract summary: We discuss the quantum-bouncer experiment involving ultracold neutrons in a braneworld scenario. Extra-dimensional theories typically predict the strengthening of gravitational interactions over short distances.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We discuss the quantum-bouncer experiment involving ultracold neutrons in a braneworld scenario. Extra-dimensional theories typically predict the strengthening of gravitational interactions over short distances. In this paper, we specifically study the anomalous gravitational interaction between the bouncing neutron and the reflecting mirror, resulting from hidden dimensions, and its effect on the outcome of this experiment in the context of a thickbrane model. This analysis allows us to identify which physical quantity of this extra-dimensional theory this neutron experiment is capable of constraining. Based on the experimental data, we found a new and independent empirical bound on free parameters of the model: the higher-dimensional gravitational constant and a parameter related to a transverse width of the confined matter inside the thickbrane. This new bound is valid in scenarios with an arbitrary number of extra dimensions greater than two. In this manner, by considering the thickness of the brane, we have been able to extend previous studies on this topic, which were limited to models with few codimensions, due to non-computability problems of power-law corrections of the gravitational potential.

Related papers

Entanglement Dynamics in Quantum Continuous-Variable States [2.480301925841752]
Gravitation between two quantum masses is one of the most straightforward scenarios where quantum features of gravity could be observed. This thesis introduces general tools to tackle interaction-mediated entanglement and applies them to two particles prepared in continuous-variable states.
arXiv Detail & Related papers (2024-05-12T19:21:21Z)
Ultracold Neutrons in the Low Curvature Limit: Remarks on the post-Newtonian effects [49.1574468325115]
We apply a perturbative scheme to derive the non-relativistic Schr"odinger equation in curved spacetime. We calculate the next-to-leading order corrections to the neutron's energy spectrum. While the current precision for observations of ultracold neutrons may not yet enable to probe them, they could still be relevant in the future or in alternative circumstances.
arXiv Detail & Related papers (2023-12-30T16:45:56Z)
Enhanced Entanglement in the Measurement-Altered Quantum Ising Chain [46.99825956909532]
Local quantum measurements do not simply disentangle degrees of freedom, but may actually strengthen the entanglement in the system. This paper explores how a finite density of local measurement modifies a given state's entanglement structure.
arXiv Detail & Related papers (2023-10-04T09:51:00Z)
Gravity-induced entanglement between two massive microscopic particles in curved spacetime: I.The Schwarzschild background [2.915799083273604]
The gravitational field within curved spacetime can induce observable entanglement between particle pairs in both scenarios. This approach establishes a more pronounced and extensive manifestation of the quantum influences of gravity. These experiments hold immense advantages and implications for the detection of quantum gravity.
arXiv Detail & Related papers (2023-08-31T08:16:43Z)
Testing the nonclassicality of gravity with the field of a single delocalized mass [55.2480439325792]
A setup is proposed that is based on a single delocalized mass coupled to a harmonically trapped test mass. We investigate the in-principle feasibility of such an experiment, which turns out to crucially depend on the ability to tame Casimir-Polder forces.
arXiv Detail & Related papers (2023-07-18T15:40:16Z)
End-To-End Latent Variational Diffusion Models for Inverse Problems in High Energy Physics [61.44793171735013]
We introduce a novel unified architecture, termed latent variation models, which combines the latent learning of cutting-edge generative art approaches with an end-to-end variational framework. Our unified approach achieves a distribution-free distance to the truth of over 20 times less than non-latent state-of-the-art baseline.
arXiv Detail & Related papers (2023-05-17T17:43:10Z)
Strongly incoherent gravity [0.0]
A non-entangling version of an arbitrary two-body potential $V(r)$ arises from local measurements and feedback forces. This produces a non-relativistic model of gravity with fundamental loss of unitarity. As an alternative to testing entanglement properties, we show that the entire remaining parameter space can be tested by looking for loss of quantum coherence in small systems.
arXiv Detail & Related papers (2023-01-20T01:09:12Z)
Conditions for graviton emission in the recombination of a delocalized mass [91.3755431537592]
In a known gedanken experiment, a delocalized mass is recombined while the gravitational field sourced by it is probed by another (distant) particle. Here, we focus on the delocalized particle and explore the conditions (in terms of mass, separation, and recombination time) for graviton emission.
arXiv Detail & Related papers (2022-09-21T13:51:27Z)
Quantum interference in external gravitational fields beyond General Relativity [0.0]
We study the phenomenon of quantum interference in the presence of external gravitational fields. In the non-relativistic regime, it is possible to come across a gravitational counterpart of the Bohm-Aharonov effect. On the other hand, beyond the Newtonian approximation, the relativistic nature of gravity plays a crucial role.
arXiv Detail & Related papers (2021-04-22T16:11:42Z)
Neutron interferometry and tests of short-range modifications of gravity [0.0]
We consider tests of short-distance modifications of gravity based on neutron interferometry in the scenario of large extra dimensions. We argue that this experiment, with this non-baryonic source, can be viewed as a test of the short-range behavior of Post-Newtonian parameters.
arXiv Detail & Related papers (2021-03-07T00:29:41Z)
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)

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