Rotating dyonic black hole in N=2 , U(1)² gauged supergravity as natural laboratory for high energy particle collisions

DOI10.1088/1361-6382/abb73bzbMath1479.83166OpenAlexW3085472283MaRDI QIDQ5162408

Anik Rudra, Hemwati Nandan, Soham Chakraborty, Radouane Gannouji, Arindam Chatterjee

Publication date: 2 November 2021

Published in: Classical and Quantum Gravity (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1088/1361-6382/abb73b

zbMATH Keywords

superradiance Penrose process BSW effect

Mathematics Subject Classification ID

Black holes (83C57) Supergravity (83E50) Yang-Mills and other gauge theories in mechanics of particles and systems (70S15) Collision of rigid or pseudo-rigid bodies (70F35) Motion of the gyroscope (70E05)

Cites Work

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Rotating dyonic black hole in N=2 , U(1)2 gauged supergravity as natural laboratory for high energy particle collisions

Rotating dyonic black hole in N=2 , U(1)² gauged supergravity as natural laboratory for high energy particle collisions