Abstract

Time-reparametrization invariance in general relativistic space-time does not allow us to single out a time in quantum mechanics in a mechanical way of measurement. Motivated by this problem, we examine this gauge invariance in the ground state of the quasi-stationary coarse-grained state of a long-range interacting closed system of identical or identified, macroscopic, and spatiotemporally inhomogeneous Bose–Einstein condensates in the thermodynamic and Newtonian limits. As a result, we find that it is a theoretical counterexample of this gauge invariance, except for proper-time translational invariance, at a coarse-grained level.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Ricci solitons on general relativistic spacetimes
Sudhakar Kumar Chaubey ... Young Jin Suh
Physica Scripta | VOL. 98
Sudhakar Kumar Chaubey, et. al.Sudhakar Kumar Chaubey ... Young Jin Suh
04 May 2023
Arrival Time in Quantum Mechanics (Demonstrated in Geometrical Order)
J Kijowski
Acta Physica Polonica A | VOL. 143
J KijowskiJ Kijowski
01 Jun 2023
Time in Quantum Mechanics II
Gonzalo Muga ... Andreas Ruschhaupt
-
Gonzalo Muga, et. al.Gonzalo Muga ... Andreas Ruschhaupt
01 Jan 2009
From the delay time in quantum mechanics to the Goos–Hänchen shift in optics
Leonardo Solidoro ... Stefano De Leo
The European Physical Journal Plus | VOL. 137
Leonardo Solidoro, et. al.Leonardo Solidoro ... Stefano De Leo
01 Apr 2022
View more papers

More From: Journal of Physics Communications

Paper Title
Journal
Date
Author
Simple circuit and experimental proposal for the detection of gauge-waves
Fernando O Minotti ... Giovanni Modanese
Journal of Physics Communications | VOL. -
Fernando O Minotti, et. al.Fernando O Minotti ... Giovanni Modanese
21 May 2024
Structural and optical properties of polymer blend nanocomposites based on PVP/PVA incorporated AgNO3
Viyan Jamal Jalal
Journal of Physics Communications | VOL. -
Viyan Jamal JalalViyan Jamal Jalal
21 May 2024
“Quantum technology will change my life.”Citizens’ attitudes and knowledge of quantum science and technology
Anka Van De Merbel ... Julia Cramer
Journal of Physics Communications | VOL. -
Anka Van De Merbel, et. al.Anka Van De Merbel ... Julia Cramer
08 May 2024
Comparison of optical trapping wavelengths for nanoscopic diamonds containing nitrogen-vacancy centers
Srestha Roy ... Basudev Roy
Journal of Physics Communications | VOL. 8
Srestha Roy, et. al.Srestha Roy ... Basudev Roy
01 May 2024
View more papers