Matter-Gravity Entanglement Entropy and the Second law for Black Holes
IF 1.8
4区 物理与天体物理
Q3 ASTRONOMY & ASTROPHYSICS
引用次数: 0
Abstract
Hawking showed that a black hole formed by collapse will emit radiation and eventually disappear. We address the challenge to define an objective notion of physical entropy which increases throughout this process in a way consistent with unitarity. We have suggested that (instead of coarse-grained entropy) physical entropy is matter-gravity entanglement entropy and that this may offer an explanation of entropy increase both for the black hole collapse and evaporation system and also for other closed unitarily evolving systems. For this to work, the matter-gravity entanglement entropy of the late-time state of black hole evaporation would have to be larger than the entropy of the freshly formed black hole. We argue that this may possibly be the case due to (usually neglected) photon-graviton interactions.黑洞的物质引力纠缠熵和第二定律
霍金证明,坍塌形成的黑洞会发出辐射,最终消失。我们解决了定义物理熵的客观概念的挑战,物理熵在整个过程中以与统一性一致的方式增加。我们已经提出(而不是粗粒度熵)物理熵是物质-重力纠缠熵,这可能为黑洞坍缩和蒸发系统以及其他封闭的统一演化系统提供熵增加的解释。为了实现这一点,黑洞蒸发后期状态的物质重力纠缠熵必须大于新形成的黑洞的熵。我们认为,这种情况可能是由于(通常被忽视的)光子-引力子相互作用。
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来源期刊
International Journal of Modern Physics D
地学天文-天文与天体物理
CiteScore
3.80
自引率
9.10%
发文量
181
审稿时长
4-8 weeks
期刊介绍:
Gravitation, astrophysics and cosmology are exciting and rapidly advancing fields of research. This journal aims to accommodate and promote this expansion of information and ideas and it features research papers and reviews on theoretical, observational and experimental findings in these fields. Among the topics covered are general relativity, quantum gravity, gravitational experiments, quantum cosmology, observational cosmology, particle cosmology, large scale structure, high energy astrophysics, compact objects, cosmic particles and radiation.
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