Quantum Inequalities in Quantum Mechanics

Eveson, S. P.; Fewster, Christopher J.; Verch, Rainer

doi:10.1007/s00023-005-0197-9

Cited by 50 publications

(66 citation statements)

References 34 publications

(87 reference statements)

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“…But it is possible to write this term as a difference of positive terms. To do so, we use a simple identity, which was used in [6] to derive energy inequalities in quantum mechanics. In a slightly different form, it is given by…”

Section: A Main Resultsmentioning

confidence: 99%

Averaged energy inequalities for the nonminimally coupled classical scalar field

Fewster

Osterbrink

2006

Phys. Rev. D

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The stress energy tensor for the classical non-minimally coupled scalar field is known not to satisfy the point-wise energy conditions of general relativity. In this paper we show, however, that local averages of the classical stress energy tensor satisfy certain inequalities. We give bounds for averages along causal geodesics and show, e.g., that in Ricci-flat background spacetimes, ANEC and AWEC are satisfied. Furthermore we use our result to show that in the classical situation we have an analogue to the phenomenon of quantum interest. These results lay the foundations for analogous energy inequalities for the quantised non-minimally coupled fields, which will be discussed elsewhere.

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Section: A Main Resultsmentioning

confidence: 99%

Averaged energy inequalities for the nonminimally coupled classical scalar field

Fewster

Osterbrink

2006

Phys. Rev. D

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“…Note that this QEI applies to the normal ordered stress-energy tensor, rather than the renormalised tensor. 7 By adding a term to the both sides which depends on the renormalised stress-energy tensor in state ψ 0 and certain other smooth local geometric terms, this defect can be remedied. (The bound is then typically not a 'closed form' expression.…”

Section: From Microscopic To Mesoscopicmentioning

confidence: 99%

Quantum Energy Inequalities and Stability Conditions in Quantum Field Theory

Fewster

2007

Rigorous Quantum Field Theory

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Summary. We give a brief review of quantum energy inequalities (QEIs) and then discuss two lines of work which suggest that QEIs are closely related to various natural properties of quantum field theory which may all be regarded as stability conditions. The first is based on joint work with Verch, and draws connections between microscopic stability (microlocal spectrum condition), mesoscopic stability (QEIs) and macroscopic stability (passivity). The second direction considers QEIs for a countable number of massive scalar fields, and links the existence and scaling properties of QEIs to the spectrum of masses. The upshot is that the existence of a suitable QEI with polynomial scaling is a sufficient condition for the model to satisfy the Buchholz-Wichmann nuclearity criterion. We briefly discuss on-going work with Ojima and Porrmann which seeks to gain a deeper understanding of this relationship.

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“…This effect was first described by Allcock in the context of the arrival time problem in quantum mechanics [1], and then discussed in detail by Bracken and Melloy [2]. More recently, the backflow effect has attracted renewed interest [3][4][5][6][7], partially related to a proposed experiment to measure it [8], and partially because of its connection to other "quantum inequalities" appearing in quantum field theory [3,9] .…”

Section: Introductionmentioning

confidence: 99%

Quantum backflow and scattering

2017

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Backflow is the phenomenon that the probability current of a quantum particle on the line can flow in the direction opposite to its momentum. In this article, previous investigations of backflow, pertaining to interaction-free dynamics or purely kinematical aspects, are extended to scattering situations in short-range potentials. It is shown that backflow is a universal quantum effect which exists in any such potential, and is always of bounded spatial extent in a specific sense. The effects of reflection and transmission processes on backflow are investigated, both analytically for general potentials, and numerically in various concrete examples.Comment: minor changes, as published in Phys. Rev. A; 13 pages, 11 figures, 3 videos, computer cod

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Quantum Inequalities in Quantum Mechanics

Cited by 50 publications

References 34 publications

Averaged energy inequalities for the nonminimally coupled classical scalar field

Averaged energy inequalities for the nonminimally coupled classical scalar field

Quantum Energy Inequalities and Stability Conditions in Quantum Field Theory

Quantum backflow and scattering

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