Beyond the dirac-nambu-goto approximation in brane-black hole systems

Viktor G. Czinner, Antonino Flachi

研究成果: Paper査読

抄録

We consider curvature corrections to static, axisymmetric Dirac-Nambu-Goto membranes embedded into a spherically symmetric black hole spacetime with arbitrary number of dimensions. Since the next to leading order corrections in the effective brane action are quadratic in the brane thickness ℓ, we adopt a linear perturbation approach in ℓ2. The perturbations are general in the sense that they are not restricted to the Rindler zone nor to the near-critical solutions of the unperturbed system. As a result, an unexpected asymmetry in the perturbed system is found. In configurations, where the brane does not cross the black hole horizon, the perturbative approach used here does not lead to regular solutions of the perturbation equation if the number of the brane's spacetime dimensions D > 3. This condition, however, does not hold for the horizon crossing solutions. Consequently we argue that the perturbative approaches used here breaks down for subcritical type solutions near the axis of the system for D > 3. Nevertheless, we can discuss topology-changing phase transitions in cases when D = 2 or 3, i.e. when the brane is a 1-dimensional string or a 2-dimensional sheet, respectively. In the general case, a different approach should be sought. Based on the energy properties of those branes that are quasi-statically evolved from the equatorial configuration, we illustrate the results of the phase transition in the case of a D = 3 brane. It is found that small thickness perturbations do not modify the order of the transition, i.e. it remains first order just as in the case of vanishing thickness.

本文言語English
ページ133-136
ページ数4
出版ステータスPublished - 2009
外部発表はい
イベント19th Workshop on General Relativity and Gravitation in Japan, JGRG 2009 - Tokyo, Japan
継続期間: 2009 11月 302009 12月 4

Other

Other19th Workshop on General Relativity and Gravitation in Japan, JGRG 2009
国/地域Japan
CityTokyo
Period09/11/3009/12/4

ASJC Scopus subject areas

  • 原子分子物理学および光学

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