A quasi-local, functional analytic detection method for stationary limit surfaces of black hole spacetimes

IF 1.2 3区 物理与天体物理 Q3 PHYSICS, MATHEMATICAL Journal of Mathematical Physics Pub Date : 2024-08-23 DOI:10.1063/5.0207754
Christian Röken
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Abstract

We present a quasi-local, functional analytic method to locate and invariantly characterize the stationary limit surfaces of black hole spacetimes with stationary regions. The method is based on ellipticity-hyperbolicity transitions of the Dirac, Klein–Gordon, Maxwell, and Fierz–Pauli Hamiltonians defined on spacelike hypersurfaces of such black hole spacetimes, which occur only at the locations of stationary limit surfaces and can be ascertained from the behaviors of the principal symbols of the Hamiltonians. Therefore, since it relates solely to the effects that stationary limit surfaces have on the time evolutions of the corresponding elementary fermions and bosons, this method is profoundly different from the usual detection procedures that employ either scalar polynomial curvature invariants or Cartan invariants, which, in contrast, make use of the local geometries of the underlying black hole spacetimes. As an application, we determine the locations of the stationary limit surfaces of the Kerr–Newman, Schwarzschild–de Sitter, and Taub–NUT black hole spacetimes. Finally, we show that for black hole spacetimes with static regions, our functional analytic method serves as a quasi-local event horizon detector and gives rise to a relational concept of black hole entropy.
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黑洞时空静止极限面的准局部函数解析探测方法
我们提出了一种准局部的函数解析方法,用于定位和不变地描述具有静止区域的黑洞时空的静止极限表面。该方法基于定义在此类黑洞时空的类空间超表面上的狄拉克、克莱因-戈登、麦克斯韦和菲尔兹-保利哈密顿的椭圆性-反双曲性转换,这种转换只发生在静止极限表面的位置,并且可以从哈密顿的主符号行为中确定。因此,由于它只涉及静止极限面对相应基本费米子和玻色子时间演化的影响,这种方法与通常使用标量多项式曲率不变式或卡坦不变式的探测程序有很大不同,因为后者利用的是底层黑洞时空的局部几何特性。作为应用,我们确定了克尔-纽曼、施瓦兹希尔德-德-西特和陶布-纽特黑洞时空的静止极限面的位置。最后,我们证明,对于具有静态区域的黑洞时空,我们的函数解析方法可以作为准局部事件视界探测器,并产生黑洞熵的关系概念。
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来源期刊
Journal of Mathematical Physics
Journal of Mathematical Physics 物理-物理:数学物理
CiteScore
2.20
自引率
15.40%
发文量
396
审稿时长
4.3 months
期刊介绍: Since 1960, the Journal of Mathematical Physics (JMP) has published some of the best papers from outstanding mathematicians and physicists. JMP was the first journal in the field of mathematical physics and publishes research that connects the application of mathematics to problems in physics, as well as illustrates the development of mathematical methods for such applications and for the formulation of physical theories. The Journal of Mathematical Physics (JMP) features content in all areas of mathematical physics. Specifically, the articles focus on areas of research that illustrate the application of mathematics to problems in physics, the development of mathematical methods for such applications, and for the formulation of physical theories. The mathematics featured in the articles are written so that theoretical physicists can understand them. JMP also publishes review articles on mathematical subjects relevant to physics as well as special issues that combine manuscripts on a topic of current interest to the mathematical physics community. JMP welcomes original research of the highest quality in all active areas of mathematical physics, including the following: Partial Differential Equations Representation Theory and Algebraic Methods Many Body and Condensed Matter Physics Quantum Mechanics - General and Nonrelativistic Quantum Information and Computation Relativistic Quantum Mechanics, Quantum Field Theory, Quantum Gravity, and String Theory General Relativity and Gravitation Dynamical Systems Classical Mechanics and Classical Fields Fluids Statistical Physics Methods of Mathematical Physics.
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