Closed Timelike Curves in Relativistic Computation

Hajnal Andr\'eka; Istv\'an N\'emeti; Gergely Sz\'ekely

arXiv:1105.0047·gr-qc·November 27, 2012·Parallel Process. Lett.

Closed Timelike Curves in Relativistic Computation

Hajnal Andr\'eka, Istv\'an N\'emeti, Gergely Sz\'ekely

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TL;DR

This paper explores the theoretical use of closed timelike curves in relativistic hypercomputation, proposing a wormhole-based scenario that addresses common issues and discusses its physical plausibility.

Contribution

It introduces a novel wormhole-based hypercomputation model utilizing CTCs, avoiding typical problems like blueshift, and analyzes its physical reasonability.

Findings

01

Proposes a CTC-based hypercomputation scenario free from blueshift issues

02

Discusses the physical plausibility of spacetimes with CTCs

03

Highlights the importance of CTCs in relativistic computation theories

Abstract

In this paper, we investigate the possibility of using closed timelike curves (CTCs) in relativistic hypercomputation. We introduce a wormhole based hypercomputation scenario which is free from the common worries, such as the blueshift problem. We also discuss the physical reasonability of our scenario, and why we cannot simply ignore the possibility of the existence of spacetimes containing CTCs.

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