The Computational Limit to Quantum Determinism and the Black Hole Information Loss Paradox

Bolotin, Arkady (2015) The Computational Limit to Quantum Determinism and the Black Hole Information Loss Paradox. Physical Science International Journal, 7 (2). pp. 107-113. ISSN 23480130

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Abstract

The present paper scrutinizes the principle of quantum determinism, which maintains that the complete information about the initial quantum state of a physical system should determine the system’s quantum state at any other time. As it shown in the paper, assuming the strong exponential time hypothesis, SETH, which conjectures that known algorithms for solving computational NP-complete problems (often brute-force algorithms) are optimal, the quantum deterministic principle cannot be used generally, i.e., for randomly selected physical systems, particularly macroscopic systems. In other words, even if the initial quantum state of an arbitrary system were precisely known, as long as SETH is true it might be impossible in the real world to predict the system’s exact final quantum state. The paper suggests that the breakdown of quantum determinism in a process, in which a black hole forms and then completely evaporates, might actually be physical evidence supporting SETH.

Item Type: Article
Subjects: Article Paper Librarian > Physics and Astronomy
Depositing User: Unnamed user with email support@article.paperlibrarian.com
Date Deposited: 12 Jun 2023 07:06
Last Modified: 22 Jan 2024 04:49
URI: http://editor.journal7sub.com/id/eprint/1186

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