We revisit the mechanism for violating the weak cosmic-censorship conjecture
(WCCC) by overspinning a nearly-extreme charged black hole. The mechanism
consists of an incoming massless neutral scalar particle, with low energy and
large angular momentum, tunneling into the hole. We investigate the effect of
the large angular momentum of the incoming particle on the background geometry
and address recent claims that such a back-reaction would invalidate the
mechanism. We show that the large angular momentum of the incident particle
does not constitute an obvious impediment to the success of the overspinning
quantum mechanism, although the induced back-reaction turns out to be essential
to restoring the validity of the WCCC in the classical regime. These results
seem to endorse the view that the "cosmic censor" may be oblivious to processes
involving quantum effects.Comment: 5 pages, to appear as a Rapid Communication in Phys. Rev. 

A. R. R. da Silva

A. Saa

D. A. T. Vanzella

G. E. A. Matsas

M. Richartz

N. D. Birrel

R. Penrose

R. M. Wald

English

arXiv

We revisit the mechanism for violating the weak cosmic-censorship conjecture (WCCC) by overspinning a nearly-extreme charged black hole. The mechanism consists of an incoming massless neutral scalar particle, with low energy and large angular momentum, tunneling into the hole. We investigate the effect of the large angular momentum of the incoming particle on the background geometry and address recent claims that such a backreaction would invalidate the mechanism. We show that the large angular momentum of the incident particle does not constitute an obvious impediment to the success of the overspinning quantum mechanism, although the induced backreaction turns out to be essential to restoring the validity of the WCCC in the classical regime. These results seem to endorse the view that the cosmic censor may be oblivious to processes involving quantum effects.Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq

Matsas, George Emanuel Avraam

Richartz, M.

Saa, A.

Silva, A. R. R. da

Vanzella, D. A. T.

Acervo Digital da Unesp

Can quantum mechanics fool the cosmic censor?

Crossref

We revisit the mechanism for violating the weak cosmic-censorship conjecture (WCCC) by overspinning a nearly-extreme charged black hole. The mechanism consists of an incoming massless neutral scalar particle, with low energy and large angular momentum, tunneling into the hole. We investigate the effect of the large angular momentum of the incoming particle on the background geometry and address recent claims that such a backreaction would invalidate the mechanism. We show that the large angular momentum of the incident particle does not constitute an obvious impediment to the success of the overspinning quantum mechanism, although the induced backreaction turns out to be essential to restoring the validity of the WCCC in the classical regime. These results seem to endorse the view that the ""cosmic censor"" may be oblivious to processes involving quantum effects

MATSAS, G. E. A.

RICHARTZ, M.

SAA, A.

SILVA, A. R. R. da

VANZELLA, Daniel Augusto Turolla

RCAAP - Repositório Científico de Acesso Aberto de Portugal

We revisit the mechanism for violating the weak cosmic-censorship conjecture (WCCC) by overspinning a nearly-extreme charged black hole. The mechanism consists of an incoming massless neutral scalar particle, with low energy and large angular momentum, tunneling into the hole. We investigate the effect of the large angular momentum of the incoming particle on the background geometry and address recent claims that such a back-reaction would invalidate the mechanism. We show that the large angular momentum of the incident particle does not constitute an obvious impediment to the success of the overspinning quantum mechanism, although the induced back-reaction turns out to be essential to restoring the validity of the WCCC in the classical regime. These results seem to endorse the view that the “cosmic censor” may be oblivious to processes involving quantum effects

Richartz, Maurício

Saa, Alberto Vazquez

Silva, André Ricardo Rocha da

Vanzella, Daniel Augusto Turolla

RI FURG

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  Previous issue date: 2009We revisit the mechanism for violating the weak cosmic-censorship conjecture (WCCC) by overspinning a nearly-extreme charged black hole. The mechanism consists of an incoming massless neutral scalar particle, with low energy and large angular momentum, tunneling into the hole. We investigate the effect of the large angular momentum of the incoming particle on the background geometry and address recent claims that such a back-reaction would invalidate the mechanism. We show that the large angular momentum of the incident particle does not constitute an obvious impediment to the success of the overspinning quantum mechanism, although the induced back-reaction turns out to be essential to restoring the validity of the WCCC in the classical regime. These results seem to endorse the view that the “cosmic censor” may be oblivious to processes involving quantum effects

LAReferencia - Red Federada de Repositorios Institucionales de Publicaciones Científicas Latinoamericanas

We revisit the mechanism for violating the weak cosmic-censorship conjecture (WCCC) by overspinning a nearly-extreme charged black hole. The mechanism consists of an incoming massless neutral scalar particle, with low energy and large angular momentum, tunneling into the hole. We investigate the effect of the large angular momentum of the incoming particle on the background geometry and address recent claims that such a backreaction would invalidate the mechanism. We show that the large angular momentum of the incident particle does not constitute an obvious impediment to the success of the overspinning quantum mechanism, although the induced backreaction turns out to be essential to restoring the validity of the WCCC in the classical regime. These results seem to endorse the view that the cosmic censor may be oblivious to processes involving quantum effects. © 2009 The American Physical Society.Instituto de Física Teórica Universidade Estadual Paulista, Rua Pamplona 145, 01405-900, São Paulo, SPInstituto de Física Gleb Wataghin UNICAMP, C. P. 6165, 13083-970, Campinas, SPDepartamento de Matemática Aplicada UNICAMP, C. P. 6065, 13083-859, Campinas, SPInstituto de Física de São Carlos Universidade de São Paulo, Avenida Trabalhador São-carlense, 13560-970, São Carlos, SPInstituto de Física Teórica Universidade Estadual Paulista, Rua Pamplona 145, 01405-900, São Paulo, S

Matsas, G. E.A. [UNESP]

Da Silva, A. R.R. [UNESP]

Vanzella, D. A.T.

Repositório Institucional UNESP

Physical Review D

We revisit the mechanism for violating the weak cosmic-censorship conjecture (WCCC) by overspinning a nearly-extreme charged black hole. The mechanism consists of an incoming massless neutral scalar particle, with low energy and large angular momentum, tunneling into the hole. We investigate the effect of the large angular momentum of the incoming particle on the background geometry and address recent claims that such a backreaction would invalidate the mechanism. We show that the large angular momentum of the incident particle does not constitute an obvious impediment to the success of the overspinning quantum mechanism, although the induced backreaction turns out to be essential to restoring the validity of the WCCC in the classical regime. These results seem to endorse the view that the ""cosmic censor"" may be oblivious to processes involving quantum effects.Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (FAPESP)Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPq

Universidade de São Paulo

We revisit the mechanism for violating the weak cosmic-censorship conjecture (WCCC) by overspinning a nearly-extreme charged black hole. The mechanism consists of an incoming massless neutral scalar particle, with low energy and large angular momentum, tunneling into the hole. We investigate the effect of the large angular momentum of the incoming particle on the background geometry and address recent claims that such a backreaction would invalidate the mechanism. We show that the large angular momentum of the incident particle does not constitute an obvious impediment to the success of the overspinning quantum mechanism, although the induced backreaction turns out to be essential to restoring the validity of the WCCC in the classical regime. These results seem to endorse the view that the cosmic censor may be oblivious to processes involving quantum effects.Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)Univ Estadual Paulista, Inst Fis Teor, BR-01405900 São Paulo, BrazilUniv Estadual Campinas, Inst Fis Gleb Wataghin, BR-13083970 Campinas, SP, BrazilUniv Estadual Campinas, Dept Matemat Aplicada, BR-13083859 Campinas, SP, BrazilUniv São Paulo, Inst Fis Sao Carlos, BR-13560970 Sao Carlos, SP, BrazilUniv Estadual Paulista, Inst Fis Teor, BR-01405900 São Paulo, Brazi

Matsas, George Emanuel Avraam [UNESP]

Silva, A. R. R. da [UNESP]

Can quantum mechanics fool the cosmic censor?

Abstract

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