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JOURNALS // Computer Research and Modeling // Archive

Computer Research and Modeling, 2018 Volume 10, Issue 2, Pages 165–179 (Mi crm157)

This article is cited in 3 papers

MATHEMATICAL MODELING AND NUMERICAL SIMULATION

Review of modern state of quantum technologies

R. V. Dushkin

VoiceLink ltd., 4a/1 Milashenkova st., Moscow, 127322, Russia

Abstract: At present modern quantum technologies can get a new twist of development, which will certainly give an opportunity to obtain solutions for numerous problems that previously could not be solved in the framework of “traditional” paradigms and computational models. All mankind stands at the threshold of the so-called “second quantum revolution”, and its short-term and long-term consequences will affect virtually all spheres of life of a global society. Such directions and branches of science and technology as materials science, nanotechnology, pharmacology and biochemistry in general, modeling of chaotic dynamic processes (nuclear explosions, turbu-lent flows, weather and long-term climatic phenomena), etc. will be directly developed, as well as the solution of any problems, which reduce to the multiplication of matrices of large dimensions (in particular, the modeling of quantum systems). However, along with extraordinary opportunities, quantum technologies carry with them certain risks and threats, in particular, the scrapping of all information systems based on modern achievements in cryptography, which will entail almost complete destruction of secrecy, the global financial crisis due to the destruction of the banking sector and compromise of all communication channels. Even in spite of the fact that methods of so-called “post-quantum” cryptography are already being developed today, some risks still need to be realized, since not all long-term consequences can be calculated. At the same time, one should be prepared to all of the above, including by training specialists working in the field of quantum technologies and understanding all their aspects, new opportunities, risks and threats. In this connection, this article briefly describes the current state of quantum technologies, namely, quantum sensorics, information transfer using quantum protocols, a universal quantum computer (hardware), and quantum computations based on quantum algorithms (software). For all of the above, forecasts are given for the development of the impact on various areas of human civilization.

Keywords: quantum technologies, quantum sensors, quantum information transfer, universal quantum computer, quantum computing, quantum algorithms.

UDC: 530.145

Received: 19.02.2018
Revised: 04.04.2018
Accepted: 11.04.2018

DOI: 10.20537/2076-7633-2018-10-2-165-179



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