Ginzburg effect in a dielectric medium with dispersion and dissipation

Sascha Lang, R. Sauerbrey, Ralf Schützhold, W. G. Unruh

Type: Article

Publication Date: 2022-07-25

Citations: 1

DOI: https://doi.org/10.1103/physrevresearch.4.033074

Abstract

As a quantum analog of Cherenkov radiation, an inertial photon detector moving through a medium with constant refractive index $n$ may perceive the electromagnetic quantum fluctuations as real photons if its velocity $v$ exceeds the medium speed of light $c/n$. For dispersive Hopfield-type media, we find this Ginzburg effect to extend to much lower $v$ because the phase velocity of light is very small near the medium resonance. In this regime, however, dissipation effects become important. Via an extended Hopfield model, we present a consistent treatment of quantum fluctuations in dispersive and dissipative media and derive the Ginzburg effect in such systems. Finally, we propose an experimental test.

Locations

Physical Review Research - View - PDF
arXiv (Cornell University) - View - PDF

Similar Works

Action	Title	Year	Authors
+	Ginzburg effect in a dielectric medium with dispersion and dissipation	2021	Sascha Lang R. Sauerbrey Ralf Schützhold W. G. Unruh
+ PDF Chat	Quantum radiation in dielectric media with dispersion and dissipation	2020	Sascha Lang Ralf Schützhold W. G. Unruh
+ PDF Chat	Real-space Hopfield diagonalization of inhomogeneous dispersive media	2016	Christopher R. Gubbin Stefan A. Maier Simone De Liberato
+ PDF Chat	Quantum simulation of dissipation for Maxwell equations in dispersive media	2024	Efstratios Koukoutsis Kyriakos Hizanidis A. K. Ram George Vahala
+ PDF Chat	Effects of environment correlations on the onset of collective decay in waveguide QED	2023	Alberto Del Angel Pablo Solano P. Barberis-Blostein
+	Quantum simulation of dissipation for Maxwell equations in dispersive media	2023	Efstratios Koukoutsis Kyriakos Hizanidis A. K. Ram George Vahala
+ PDF Chat	Electromagnetic energy, absorption, and Casimir forces: Uniform dielectric media in thermal equilibrium	2010	F. S. S. Rosa Diego A. R. Dalvit Peter W. Milonni
+ PDF Chat	Quantum-statistical approach to electromagnetic wave propagation and dissipation inside dielectric media and nanophotonic and plasmonic waveguides	2016	Konstantin G. Zloshchastiev
+	Dissipation through dispersion	2001	Avy Soffer
+ PDF Chat	Fermi’s Golden Rule for Spontaneous Emission in Absorptive and Amplifying Media	2021	Sebastian Franke Juanjuan Ren Marten Richter Andreas Knorr Stephen Hughes
+	QED in dispersing and absorbing media	2000	L. Knöll Stefan Scheel D.‐G. Welsch
+	Numerical simulations of the nonlinear quantum vacuum in the Heisenberg-Euler weak-field expansion	2023	Andreas Lindner Baris Ölmez H. Rühl
+	Numerical Simulations of the Nonlinear Quantum Vacuum in the Heisenberg-Euler Weak-Field Expansion	2021	Andreas K. Lindner Baris Ölmez H. Rühl
+ PDF Chat	Fractional Quantum Zeno Effect Emerging from Non-Hermitian Physics	2023	Yue Sun Tao Shi Xiaogang Li Zhidong Zhang Liantuan Xiao Suotang Jia Ying Hu
+ PDF Chat	The oscillator model for dissipative QED in an inhomogeneous dielectric	2004	A. J. van Wonderen L.G. Suttorp
+ PDF Chat	Approach for describing spatial dynamics of quantum light-matter interaction in dispersive dissipative media	2017	A. A. Zyablovsky E. S. Andrianov Igor A. Nechepurenko A. V. Dorofeenko A. Pukhov А. П. Виноградов
+	Effects of environment correlations on the onset of collective decay in waveguide QED	2022	Alberto Del Ángel P. Solano P. Barberis-Blostein
+ PDF Chat	Nonlinear Quantum Electrodynamics of Epsilon-Near-Zero Media	2024	Luca Dal Negro Marco Ornigotti
+	Fractional Quantum Zeno Effect Emerging from Non-Hermitian Physics	2022	Yue Sun Tao Shi Xiaogang Li Zhidong Zhang Liantuan Xiao Suotang Jia Ying Hu
+ PDF Chat	Non-Markovian effect on quantum optical metrology under a dissipative environment	2020	Kai Bai Hong‐Gang Luo Wenxian Zhang Meng Xiao

Works That Cite This (0)

Action	Title	Year	Authors

Works Cited by This (33)

Action	Title	Year	Authors
+	Friction forces on atoms after acceleration	2015	F. Intravaia Vanik E. Mkrtchian Stefan Yoshi Buhmann Stefan Scheel Diego A. R. Dalvit Carsten Henkel
+ PDF Chat	Cherenkov friction on a neutral particle moving parallel to a dielectric	2015	Gregor Pieplow Carsten Henkel
+ PDF Chat	Quantum Cherenkov radiation and noncontact friction	2013	Mohammad F. Maghrebi Ramin Golestanian Mehran Kardar
+ PDF Chat	The Reality of Casimir Friction	2016	Kimball A. Milton Johan S. Høye Iver Brevik
+ PDF Chat	Casimir-Polder forces on moving atoms	2009	Stefan Scheel Stefan Yoshi Buhmann
+ PDF Chat	Field quantization in inhomogeneous absorptive dielectrics	2004	L.G. Suttorp Martijn Wubs
+ PDF Chat	Quantum field theory of van der Waals friction	2006	A. I. Volokitin B. N. J. Persson
+ PDF Chat	Canonical quantization of the electromagnetic field interacting with a moving dielectric medium	2012	S. A. R. Horsley
+ PDF Chat	Macroscopic quantum electrodynamics - Concepts and applications	2008	Stefan Scheel Stefan Yoshi Buhmann
+	Quantum Field Theory in Terms of Vacuum Expectation Values	1956	A. S. Wightman