Holographic Schwinger effect in a rotating strongly coupled medium

We perform the potential analysis for the holographic Schwingereffect in spinning Myers-Perry black holes. We compute thepotential between the produced pair by evaluating the classicalaction of a string attaching on a probe D3-brane sitting at anintermediate position in the AdS bulk. It turns out thatincreasing the angular momentum reduces the potential barrier thusenhancing the Schwinger effect, consistent with previous findingsobtained from the local Lorentz transformation. In particular,these effects are more visible for the particle pair lying in thetransversal plane compared with that along the longitudinalorientation. In addition, we discuss how the Schwinger effectchanges with the shear viscosity to entropy density ratio atstrong coupling under the influence of angular momentum.

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Isomeric structure in the Sn100 region: Possible competition between β+ decay and proton emission in the isomeric unbound nucleus
Cai,
Yuan,
Zhang
et al. 2024
Phys. Rev. C
1
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0
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Holographic Schwinger effect in a rotating strongly coupled medium

Cited by 5 publications

References 58 publications

String breaking and running coupling of QQ¯ in a rotating media from holography

String breaking and running coupling of QQ¯ in a rotating media from holography

Holographic Schwinger effect in spinning black hole backgrounds*

Isomeric structure in the Sn100 region: Possible competition between β+ decay and proton emission in the isomeric unbound nucleus
Cai,
Yuan,
Zhang
et al. 2024
Phys. Rev. C
1
0
0
0
View full text Add to dashboard Cite

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Holographic Schwinger effect in a rotating strongly coupled medium

Cited by 5 publications

References 58 publications

String breaking and running coupling of QQ¯ in a rotating media from holography

String breaking and running coupling of QQ¯ in a rotating media from holography

Holographic Schwinger effect in spinning black hole backgrounds*

Isomeric structure in the Sn100 region: Possible competition between β+ decay and proton emission in the isomeric unbound nucleus Cai, Yuan, Zhang et al. 2024Phys. Rev. C1000View full textAdd to dashboardCite

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Isomeric structure in the Sn100 region: Possible competition between β+ decay and proton emission in the isomeric unbound nucleus
Cai,
Yuan,
Zhang
et al. 2024
Phys. Rev. C
1
0
0
0
View full text Add to dashboard Cite