Effect of a cylindrical thin-shell of matter on the electrostatic self-force on a charge

Celis, Emilio Rubín de

doi:10.1140/epjc/s10052-016-3939-6

Cited by 10 publications

(16 citation statements)

References 28 publications

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“…Hence, for example, by studying the force on a static charged particle an observer could determine if the background is that of a gauge cosmic string or that of a thin-shell wormhole connecting two conical spacetimes. Also, in the case of topologically trivial spacetimes, an analogous analysis would allow to distinguish different interior geometries by studying the self-force on a charge placed at the exterior region beyond a matter shell [11,13,14]. The problem of the self-force on a scalar point charge appears as a natural but not at all trivial extension of previous work.…”

Section: Introductionmentioning

confidence: 99%

“…While the field equations of a given point source are locally those of Minkowski spacetime, the globally correct solution in a conical geometry is not symmetric around the source, and as a result a self-force appears on the charged particle [8]. Moreover, as shown in [9,10,11] for electrically charged point particles, the behavior of such force in relation with the position of the charge allows to distinguish between two locally identical geometries which differ in their global topological aspects. This provides a sort of tool for detecting wormholes of the thin-shell kind, whose geometries are locally the same of those of the type which they would connect [12].…”

Section: Introductionmentioning

confidence: 99%

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Self-force on an arbitrarily coupled scalar charge in cylindrical thin-shell spacetimes

2018

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We consider the arbitrarily coupled field and self-force of a static massless scalar charge in cylindrical spacetimes with one or two asymptotic regions, with the only matter content concentrated in a thin-shell characterized by the trace of the extrinsic curvature jump κ. The self-force is studied numerically and analytically in terms of the curvature coupling ξ. We found the critical values ξ (n) c = n/ (ρ(r s ) κ), with n ∈ N and ρ(r s ) the metric's profile function at the position of the shell, for which the scalar field is divergent in the background configuration. The pathological behavior is removed by restricting the coupling to a domain of stability. The coupling has a significant influence over the self-force at the vicinities of the shell, and we identified ξ = 1/4 as the value for which the scalar force changes sign at a neighborhood of r s ; if κ(1 − 4ξ) > 0 the shell acts repulsively as an effective potential barrier, while if κ(1 − 4ξ) < 0 it attracts the charge as a potential well. The sign of the asymptotic self-force only depends on whether there is an angle deficit or not on the external region where the charge is placed; conical asymptotics produce a leading attractive force, while Minkowski regions produce a repulsive asymptotic self-force. PACS number(s): 4.20. 04.20.Gz, 41.20.Cv

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Self-force on an arbitrarily coupled scalar charge in cylindrical thin-shell spacetimes

2018

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“…Following this proposal, here we are interested in the problem of determining the electric field of a rest point charge in the background spacetime of a wormhole connecting two gauge cosmic string geometries at each side of the throat, joined to two Minkowski geometries in their corresponding outer regions. Therefore, in the present work we will determine how this improvement in the kind of background geometries considered is reflected in the behavior of the electric self-force on a point charge, and how this compares with our previous results obtained for everywhere conical spacetimes [14,15]. We will also consider an interpretation at the light of the analogy introduced in [15], where the effect of a cylindrical thin matter layer on the electric field is reproduced by replacing such shell by a suitablenon-gravitating -charge density placed at the corresponding boundary.…”

Section: Introductionmentioning

confidence: 67%

“…Therefore, in the present work we will determine how this improvement in the kind of background geometries considered is reflected in the behavior of the electric self-force on a point charge, and how this compares with our previous results obtained for everywhere conical spacetimes [14,15]. We will also consider an interpretation at the light of the analogy introduced in [15], where the effect of a cylindrical thin matter layer on the electric field is reproduced by replacing such shell by a suitablenon-gravitating -charge density placed at the corresponding boundary.…”

Section: Introductionmentioning

confidence: 67%

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Electrostatics and self-force in asymptotically flat cylindrical wormholes

Celis

Simeone

2020

Eur. Phys. J. C

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The problem of the electrostatics in conical wormholes is revisited, now improving the background geometries with asymptotical flatness. The electric self-force on a point charge placed at different regions in the spacetime of a conical thin-shell wormhole connecting flat outer submanifolds is obtained and compared with the results of previous works. The study is also carried out in terms of a previously introduced analogy in which the effect of the matter shells on the electric field is reproduced by non-gravitating layers of charge located on the boundary surfaces. Besides, a better insight on the physical effects of a non trivial geometry is obtained by means of a further analysis of the electric fluxes across the wormhole throat and at both spatial infinities. It is found that the throat is traversed by a non-arbitrary and finite electric flux determined by the global topology, which is proportional to the charge of the source, and is characteristic of the asymptotically flat cylindrical wormholes regardless of the details of the throat geometry.

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Electromagnetic self-force in the five dimensional Myers–Perry space–time

2019

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We calculate the effects of the electromagnetic self-force on a charged particle outside a five dimensional Myers-Perry space-time. Based on our earlier work [1], we obtain the self-force using quaternions in Janis-Newman and Giampieri algorithms. In four dimensional rotating space-time the electromagnetic self-force is repulsive at any point, however, in five dimensional rotational spacetime, we find a point r0 where the electromagnetic self-force vanishes. For r < r0 (r > r0) the electromagnetic self-force is attractive (repulsive).

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Effect of a cylindrical thin-shell of matter on the electrostatic self-force on a charge

Cited by 10 publications

References 28 publications

Self-force on an arbitrarily coupled scalar charge in cylindrical thin-shell spacetimes

Self-force on an arbitrarily coupled scalar charge in cylindrical thin-shell spacetimes

Electrostatics and self-force in asymptotically flat cylindrical wormholes

Electromagnetic self-force in the five dimensional Myers–Perry space–time

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