Fifty Years of Energy Extraction from Rotating Black Hole: Revisiting Magnetic Penrose Process

Magnetic Penrose process (MPP) is not only the most exciting and fascinating process mining the rotational energy of black hole but it is also the favored astrophysically viable mechanism for high energy sources and phenomena. It operates in three regimes of efficiency, namely low, moderate and ultr...

Full description

Bibliographic Details
Main Authors: Arman Tursunov, Naresh Dadhich
Format: Article
Language:English
Published: MDPI AG 2019-05-01
Series:Universe
Subjects:
Online Access:https://www.mdpi.com/2218-1997/5/5/125
id doaj-887fac28786b48278d14b5dea830c0e2
record_format Article
spelling doaj-887fac28786b48278d14b5dea830c0e22020-11-25T01:38:42ZengMDPI AGUniverse2218-19972019-05-015512510.3390/universe5050125universe5050125Fifty Years of Energy Extraction from Rotating Black Hole: Revisiting Magnetic Penrose ProcessArman Tursunov0Naresh Dadhich1Institute of Physics and Research Centre of Theoretical Physics and Astrophysics, Faculty of Philosophy and Science, Silesian University in Opava, Bezručovo nám.13, CZ-74601 Opava, Czech RepublicIUCAA, Post Bag 4, Ganeshkhind, Pune 411 007, IndiaMagnetic Penrose process (MPP) is not only the most exciting and fascinating process mining the rotational energy of black hole but it is also the favored astrophysically viable mechanism for high energy sources and phenomena. It operates in three regimes of efficiency, namely low, moderate and ultra, depending on the magnetization and charging of spinning black holes in astrophysical setting. In this paper, we revisit MPP with a comprehensive discussion of its physics in different regimes, and compare its operation with other competing mechanisms. We show that MPP could in principle foot the bill for powering engine of such phenomena as ultra-high-energy cosmic rays, relativistic jets, fast radio bursts, quasars, AGNs, etc. Further, it also leads to a number of important observable predictions. All this beautifully bears out the promise of a new vista of energy powerhouse heralded by Roger Penrose half a century ago through this process, and it has today risen in its magnetically empowered version of mid 1980s from a purely thought experiment of academic interest to a realistic powering mechanism for various high-energy astrophysical phenomena.https://www.mdpi.com/2218-1997/5/5/125rotating black holesmagnetic fieldenergy extractionmagnetic Penrose processBlandford–Znajek mechanismUHECRrelativistic jetsquasarsAGNs
collection DOAJ
language English
format Article
sources DOAJ
author Arman Tursunov
Naresh Dadhich
spellingShingle Arman Tursunov
Naresh Dadhich
Fifty Years of Energy Extraction from Rotating Black Hole: Revisiting Magnetic Penrose Process
Universe
rotating black holes
magnetic field
energy extraction
magnetic Penrose process
Blandford–Znajek mechanism
UHECR
relativistic jets
quasars
AGNs
author_facet Arman Tursunov
Naresh Dadhich
author_sort Arman Tursunov
title Fifty Years of Energy Extraction from Rotating Black Hole: Revisiting Magnetic Penrose Process
title_short Fifty Years of Energy Extraction from Rotating Black Hole: Revisiting Magnetic Penrose Process
title_full Fifty Years of Energy Extraction from Rotating Black Hole: Revisiting Magnetic Penrose Process
title_fullStr Fifty Years of Energy Extraction from Rotating Black Hole: Revisiting Magnetic Penrose Process
title_full_unstemmed Fifty Years of Energy Extraction from Rotating Black Hole: Revisiting Magnetic Penrose Process
title_sort fifty years of energy extraction from rotating black hole: revisiting magnetic penrose process
publisher MDPI AG
series Universe
issn 2218-1997
publishDate 2019-05-01
description Magnetic Penrose process (MPP) is not only the most exciting and fascinating process mining the rotational energy of black hole but it is also the favored astrophysically viable mechanism for high energy sources and phenomena. It operates in three regimes of efficiency, namely low, moderate and ultra, depending on the magnetization and charging of spinning black holes in astrophysical setting. In this paper, we revisit MPP with a comprehensive discussion of its physics in different regimes, and compare its operation with other competing mechanisms. We show that MPP could in principle foot the bill for powering engine of such phenomena as ultra-high-energy cosmic rays, relativistic jets, fast radio bursts, quasars, AGNs, etc. Further, it also leads to a number of important observable predictions. All this beautifully bears out the promise of a new vista of energy powerhouse heralded by Roger Penrose half a century ago through this process, and it has today risen in its magnetically empowered version of mid 1980s from a purely thought experiment of academic interest to a realistic powering mechanism for various high-energy astrophysical phenomena.
topic rotating black holes
magnetic field
energy extraction
magnetic Penrose process
Blandford–Znajek mechanism
UHECR
relativistic jets
quasars
AGNs
url https://www.mdpi.com/2218-1997/5/5/125
work_keys_str_mv AT armantursunov fiftyyearsofenergyextractionfromrotatingblackholerevisitingmagneticpenroseprocess
AT nareshdadhich fiftyyearsofenergyextractionfromrotatingblackholerevisitingmagneticpenroseprocess
_version_ 1725051987430473728