Axion hair and dynamical torsion from anomalies

M. J. Duncan; N. Kaloper; K. A. Olive

doi:10.1016/0550-3213(92)90052-D

Axion hair and dynamical torsion from anomalies

M. J. Duncan, N. Kaloper, K. A. Olive

Physics and Astronomy (Twin Cities)

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66 Scopus citations

Abstract

Recent studies have shown that black holes can indeed have hair in gravitational theories beyond minimal Einstein gravity. The hair is associated with the axion and dilaton of string theory, whose gauge and gravitational structure is richer than the conventional, minimally coupled theory. The axion in this case also has a dual rôle as a dynamical degree of freedom of the torsion. In this paper we suggest that there is a large class of models for which a torsion may be transmuted to an axion, and black holes develop hair. Indeed we show that even a model as simple as QED on a torsionful background space-time gives rise to axionic hair. We discuss this phenomenon and its implications.

Original language	English (US)
Pages (from-to)	215-235
Number of pages	21
Journal	Nuclear Physics, Section B
Volume	387
Issue number	1
DOIs	https://doi.org/10.1016/0550-3213(92)90052-D
State	Published - Nov 23 1992

Bibliographical note

Funding Information:
We would like to thank A. Vainshtein and I. Khriplovich for valuable conversations. M.J.D. would also like to thank G. Segrè for many discussions on the nature of torsion. This work was supported in part by DOE grant DE-ACO2-83ER-40105. K.A.O. was also supported in part by a Presidential Young Investigator Award, and N.K. received assistance from a Doctoral Dissertation Fellowship of the University of Minnesota.

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title = "Axion hair and dynamical torsion from anomalies",

abstract = "Recent studies have shown that black holes can indeed have hair in gravitational theories beyond minimal Einstein gravity. The hair is associated with the axion and dilaton of string theory, whose gauge and gravitational structure is richer than the conventional, minimally coupled theory. The axion in this case also has a dual r{\^o}le as a dynamical degree of freedom of the torsion. In this paper we suggest that there is a large class of models for which a torsion may be transmuted to an axion, and black holes develop hair. Indeed we show that even a model as simple as QED on a torsionful background space-time gives rise to axionic hair. We discuss this phenomenon and its implications.",

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AB - Recent studies have shown that black holes can indeed have hair in gravitational theories beyond minimal Einstein gravity. The hair is associated with the axion and dilaton of string theory, whose gauge and gravitational structure is richer than the conventional, minimally coupled theory. The axion in this case also has a dual rôle as a dynamical degree of freedom of the torsion. In this paper we suggest that there is a large class of models for which a torsion may be transmuted to an axion, and black holes develop hair. Indeed we show that even a model as simple as QED on a torsionful background space-time gives rise to axionic hair. We discuss this phenomenon and its implications.

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Axion hair and dynamical torsion from anomalies

Abstract

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