Unruh effect revisited

Journal of Physics: Conference Series 1141 (1) (2018)
  Copy   BIBTEX

Abstract

The vacuum energy density of free scalar quantum field phgr in a Rindler distributional space-time with distributional Levi-Cività connection is considered. It has been widely believed that, except in very extreme situations, the influence of acceleration on quantum fields should amount to just small, sub-dominant contributions. Here we argue that this belief is wrong by showing that in a Rindler distributional background space-time with distributional Levi-Cività connection the vacuum energy of free quantum fields is forced, by the very same background distributional space-time such the Rindler distributional background space-time, to become dominant over any classical energy density component. This semiclassical gravity effect finds its roots in the singular behavior of quantum fields on a Rindler distributional space-times with distributional Levi-Cività connection. In particular we obtain that the vacuum fluctuations 〈phgr2〉 has a singular behavior on a Rindler horizon. Therefore sufficiently strongly accelerated observer burns up near the Rindler horizon. Thus Polchinski's account doesn't violate of the Einstein equivalence principle

Categories

Keywords

Reprint years

Links

PhilArchive

External links

  • This entry has no external links. Add one.
Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Fulling Non‐uniqueness and the Unruh Effect: A Primer on Some Aspects of Quantum Field Theory.Aristidis Arageorgis, John Earman & Laura Ruetsche - 2003 - Philosophy of Science 70 (1):164-202.
On the Possibility of Measuring the Unruh Effect.Igor Peña & Daniel Sudarsky - 2014 - Foundations of Physics 44 (6):689-708.
Fulling non‐uniqueness and the Unruh effect.Aristidis Arageorgis, John Earman & and Laura Ruetsche - 2003 - Philosophy of Science 70 (1):164-202.
Uniformly Accelerated Charge in a Quantum Field: From Radiation Reaction to Unruh Effect. [REVIEW]Philip R. Johnson & B. L. Hu - 2005 - Foundations of Physics 35 (7):1117-1147.
About Dark Energy and Dark Matter in a Three-Dimensional Quantum Vacuum Model.Davide Fiscaletti - 2016 - Foundations of Physics 46 (10):1307-1340.
The Unruh effect for philosophers.John Earman - 2011 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 42 (2):81-97.
New Insights into Uniformly Accelerated Detector in a Quantum Field.Shih-Yuin Lin & B. L. Hu - 2007 - Foundations of Physics 37 (4-5):480-490.
Contrasting Classical and Quantum Vacuum States in Non-inertial Frames.Timothy H. Boyer - 2013 - Foundations of Physics 43 (8):923-947.
Quantum vacuum instability near rotating stars.P. C. W. Davies - unknown
Quantum Thermometry.Robert B. Mann & Eduardo Martín-Martínez - 2014 - Foundations of Physics 44 (5):492-511.
Quantum Mechanics Emerges from Information Theory Applied to Causal Horizons.Jae-Weon Lee - 2011 - Foundations of Physics 41 (4):744-753.
The Solution Cosmological Constant Problem.Jaykov Foukzon - 2019 - Journal of Modern Physics 10 (7):729-794.
De Sitter Space Without Dynamical Quantum Fluctuations.Kimberly K. Boddy, Sean M. Carroll & Jason Pollack - 2016 - Foundations of Physics 46 (6):702-735.
On the Origin of Entropic Gravity and Inertia.Jae-Weon Lee - 2012 - Foundations of Physics 42 (9):1153-1164.
Unruh Effect in a Uniformly Accelerated Charge: From quantum fluctuations to classical radiation.Philip R. Johnson & B. L. Hu - forthcoming - Foundations of Physics.

Analytics

Added to PP
2019-07-11

Downloads
130 (#136,974)

6 months
32 (#101,278)

Historical graph of downloads
How can I increase my downloads?

Author's Profile

Citations of this work

No citations found.

Add more citations

References found in this work

No references found.

Add more references