Scattering of uncharged particles in the field of two extremely charged black holes

Donato Bini; Andrea Geralico; Gabriele Gionti; Wolfango Plastino; Nelson Velandia

doi:10.1007/s10714-019-2642-y

Scattering of uncharged particles in the field of two extremely charged black holes

Donato Bini
, Andrea Geralico
, Gabriele Gionti
, Wolfango Plastino
, Nelson Velandia

Department of Physics

Istituto per le Applicazioni del Calcolo “M. Picone,” CNR
National Institute for Nuclear Physics
Specola Vaticana
University of Arizona
Roma Tre University

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

We investigate the motion of uncharged particles scattered by a binary system consisting of extremely charged black holes in equilibrium as described by the Majumdar–Papapetrou solution. We focus on unbound orbits confined to the plane containing both black holes. We consider the two complementary situations of particles approaching the system along a direction parallel to the axis where the black holes are displaced and orthogonal to it. We numerically compute the scattering angle as a function of the particle’s conserved energy parameter, which provides a gauge-invariant information of the scattering process. We also study the precession of a test gyroscope along such orbits and evaluate the accumulated precession angle after a full scattering, which is another gauge-invariant quantity.

Original language	English
Article number	153
Journal	General Relativity and Gravitation
Volume	51
Issue number	11
DOIs	https://doi.org/10.1007/s10714-019-2642-y
State	Published - 01 Nov 2019

Keywords

Gyroscope precession
Majumdar–Papapetrou spacetime
Particle scattering

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title = "Scattering of uncharged particles in the field of two extremely charged black holes",

abstract = "We investigate the motion of uncharged particles scattered by a binary system consisting of extremely charged black holes in equilibrium as described by the Majumdar–Papapetrou solution. We focus on unbound orbits confined to the plane containing both black holes. We consider the two complementary situations of particles approaching the system along a direction parallel to the axis where the black holes are displaced and orthogonal to it. We numerically compute the scattering angle as a function of the particle{\textquoteright}s conserved energy parameter, which provides a gauge-invariant information of the scattering process. We also study the precession of a test gyroscope along such orbits and evaluate the accumulated precession angle after a full scattering, which is another gauge-invariant quantity.",

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AU - Geralico, Andrea

AU - Gionti, Gabriele

AU - Plastino, Wolfango

AU - Velandia, Nelson

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N2 - We investigate the motion of uncharged particles scattered by a binary system consisting of extremely charged black holes in equilibrium as described by the Majumdar–Papapetrou solution. We focus on unbound orbits confined to the plane containing both black holes. We consider the two complementary situations of particles approaching the system along a direction parallel to the axis where the black holes are displaced and orthogonal to it. We numerically compute the scattering angle as a function of the particle’s conserved energy parameter, which provides a gauge-invariant information of the scattering process. We also study the precession of a test gyroscope along such orbits and evaluate the accumulated precession angle after a full scattering, which is another gauge-invariant quantity.

AB - We investigate the motion of uncharged particles scattered by a binary system consisting of extremely charged black holes in equilibrium as described by the Majumdar–Papapetrou solution. We focus on unbound orbits confined to the plane containing both black holes. We consider the two complementary situations of particles approaching the system along a direction parallel to the axis where the black holes are displaced and orthogonal to it. We numerically compute the scattering angle as a function of the particle’s conserved energy parameter, which provides a gauge-invariant information of the scattering process. We also study the precession of a test gyroscope along such orbits and evaluate the accumulated precession angle after a full scattering, which is another gauge-invariant quantity.

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KW - Majumdar–Papapetrou spacetime

KW - Particle scattering

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JO - General Relativity and Gravitation

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ER -

Scattering of uncharged particles in the field of two extremely charged black holes

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Keywords

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