Transactions on Engineering and Computer Science
Hypercomputation and Negative Entropy
Takaaki Musha
Abstract
On the basis of a theorem, in which an evanescent photon is a superluminal particle, the author considers the possibility of realizing a high-performance computer system compared with conventional silicon processors, which can perform infinite steps of computation within the finite time. This is called a hypercomputer. This critical component for hypercomputing can be created using meta-material circuits with a non-linear refractive index. Based on this optical computer system, utilizing metamaterial technology, it can be shown that superluminal computation, which is a new concept for an accelerated Turing machine, can be realized in the physical world. This system is related with the negative entropy which was introduced by Erwin Schrödinger. In this article, the author shows that negative entropy will appear in the computational steps by using superluminal particles.
Keywords: Hypercomputer; Negative entropy; Meta-material; Accelerated turing machine; Evanescent photon.
Journal Information
- Journal Name: Transactions on Engineering and Computer Science
- Journal Short Name: Trans Eng Comput Sci
- Language: English
- Format of Publication: Online
- Starting Year: 2020
- Focus Subject: Engineering and Computer Science
- Publication Model: Online
- Frequency of Publication: Two Issue a Year
- Review Process: Single blind peer-review by referees
- Time to 1st Decision: 2 to 3 weeks from date of submission
- Time to Acceptance: 4 to 6 weeks, depending upon the required revision cycles
- Time to Publication: 1 to 3 weeks from date of final submission in the forthcoming issue
- DOI Prefix: 10.7620
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