A falling magnetic monopole as a holographic local quench

Nicolò Zenoni; Roberto Auzzi; Stefania Caggioli; Maria Martinelli; Giuseppe Nardelli

doi:10.1007/JHEP11(2021)048

A falling magnetic monopole as a holographic local quench

Nicolò Zenoni, Roberto Auzzi, Stefania Caggioli, Maria Martinelli, Giuseppe Nardelli

Facoltà di Scienze Matematiche, Fisiche e Naturali

Risultato della ricerca: Contributo in rivista › Articolo in rivista

Abstract

An analytic static monopole solution is found in global AdS(4), in the limit of small backreaction. This solution is mapped in Poincare patch to a falling monopole configuration, which is dual to a local quench triggered by the injection of a condensate. Choosing boundary conditions which are dual to a time-independent Hamiltonian, we find the same functional form of the energy-momentum tensor as the one of a quench dual to a falling black hole. On the contrary, the details of the spread of entanglement entropy are very different from the falling black hole case, where the quench induces always a higher entropy compared to the vacuum, i.e. increment Delta S > 0. In the propagation of entanglement entropy for the monopole quench, there is instead a competition between a negative contribution to increment Delta S due to the scalar condensate and a positive one carried by the freely propagating quasiparticles generated by the energy injection.

Lingua originale	English
pagine (da-a)	0-34
Numero di pagine	35
Rivista	Journal of High Energy Physics
Numero di pubblicazione	11
DOI	https://doi.org/10.1007/JHEP11(2021)048
Stato di pubblicazione	Pubblicato - 2021

Keywords

AdS/CFT Correspondence

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10.1007/JHEP11(2021)048

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abstract = "An analytic static monopole solution is found in global AdS(4), in the limit of small backreaction. This solution is mapped in Poincare patch to a falling monopole configuration, which is dual to a local quench triggered by the injection of a condensate. Choosing boundary conditions which are dual to a time-independent Hamiltonian, we find the same functional form of the energy-momentum tensor as the one of a quench dual to a falling black hole. On the contrary, the details of the spread of entanglement entropy are very different from the falling black hole case, where the quench induces always a higher entropy compared to the vacuum, i.e. increment Delta S > 0. In the propagation of entanglement entropy for the monopole quench, there is instead a competition between a negative contribution to increment Delta S due to the scalar condensate and a positive one carried by the freely propagating quasiparticles generated by the energy injection.",

keywords = "AdS/CFT Correspondence, AdS/CFT Correspondence",

author = "Nicol{\`o} Zenoni and Roberto Auzzi and Stefania Caggioli and Maria Martinelli and Giuseppe Nardelli",

year = "2021",

doi = "10.1007/JHEP11(2021)048",

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T1 - A falling magnetic monopole as a holographic local quench

AU - Zenoni, Nicolò

AU - Auzzi, Roberto

AU - Caggioli, Stefania

AU - Martinelli, Maria

AU - Nardelli, Giuseppe

PY - 2021

Y1 - 2021

N2 - An analytic static monopole solution is found in global AdS(4), in the limit of small backreaction. This solution is mapped in Poincare patch to a falling monopole configuration, which is dual to a local quench triggered by the injection of a condensate. Choosing boundary conditions which are dual to a time-independent Hamiltonian, we find the same functional form of the energy-momentum tensor as the one of a quench dual to a falling black hole. On the contrary, the details of the spread of entanglement entropy are very different from the falling black hole case, where the quench induces always a higher entropy compared to the vacuum, i.e. increment Delta S > 0. In the propagation of entanglement entropy for the monopole quench, there is instead a competition between a negative contribution to increment Delta S due to the scalar condensate and a positive one carried by the freely propagating quasiparticles generated by the energy injection.

AB - An analytic static monopole solution is found in global AdS(4), in the limit of small backreaction. This solution is mapped in Poincare patch to a falling monopole configuration, which is dual to a local quench triggered by the injection of a condensate. Choosing boundary conditions which are dual to a time-independent Hamiltonian, we find the same functional form of the energy-momentum tensor as the one of a quench dual to a falling black hole. On the contrary, the details of the spread of entanglement entropy are very different from the falling black hole case, where the quench induces always a higher entropy compared to the vacuum, i.e. increment Delta S > 0. In the propagation of entanglement entropy for the monopole quench, there is instead a competition between a negative contribution to increment Delta S due to the scalar condensate and a positive one carried by the freely propagating quasiparticles generated by the energy injection.

KW - AdS/CFT Correspondence

UR - https://publicatt.unicatt.it/handle/10807/201516

U2 - 10.1007/JHEP11(2021)048

DO - 10.1007/JHEP11(2021)048

M3 - Article

SN - 1029-8479

SP - 0

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JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

IS - 11

ER -

A falling magnetic monopole as a holographic local quench

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Keywords

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