Short-distance space-time structure and black holes in string theory: a short review of the present status |
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| Affiliation: | 1. School of Computer Science & Technology, Beijing Institute of Technology, Beijing, China;2. College of Mathematics and Computer Science, Fuzhou University, Fuzhou, China;3. Fujian Provincial Key Laboratory of Information Security of Network Systems, Fuzhou, China;4. School of Information Systems, Singapore Management University, Singapore |
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| Abstract: | We briefly review the present status of string theory from the viewpoint of its implications on the short-distance space-time structure and black hole physics. Special emphases are given on two closely related issues in recent developments towards nonperturbative string theory, namely, the role of the space-time uncertainty relation as a qualitative but universal characterization of the short-distance structure of string theory and the microscopic formulation of black-hole entropies. We will also suggest that the space-time uncertainty relation can be an underlying principle for the holographic property of M theory, by showing that the space-time uncertainty relation naturally explains the UV/IR relation used in a recent derivation of the holographic bound for D3 brane by Susskind and Witten. |
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