alexa Space Propulsion Physics toward Galaxy Exploration
ISSN: 2168-9792

Journal of Aeronautics & Aerospace Engineering
Open Access

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Research Article

Space Propulsion Physics toward Galaxy Exploration

Yoshinari Minami*
Advanced Science-Technology Research Organization (Formerly NEC Space Development Division), Japan
Corresponding Author : Yoshinari Minami
Advanced Science-Technology Research Organization
(Formerly NEC Space Development Division); 35-13
Higashikubo-Cho, Nishi-Ku; Yokohama
220-0062 Japan
Tel: 022-277-6611
E-mail: [email protected]
Received November 04, 2015; Accepted November 21, 2015; Published November 28, 2015
Citation: Minami Y (2015) Space Propulsion Physics toward Galaxy Exploration. J Aeronaut Aerospace Eng 4:149. doi:10.4172/2168-9792.1000149
Copyright: © 2015 Minami Y. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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Abstract

The distance to a stellar system is too huge, therefore the travel to the fixed star nearest to the Earth using the present propulsion technology will require tens of thousands years. In order to overcome such a limit of the space travel between fixed stars, research and development of a new propulsion theory and navigation theory are indispensable. As a promising approach, space drive propulsion theory and Hyper-Space navigation method given by a space-time featuring an imaginary time (i.e., Time-Hole) are introduced. Space drive propulsion system is one of field propulsion system utilizing the action of the medium of strained or deformed field of space. The curvature of space plays a significant role for the propulsion theory. On the other hand, a plunging into Hyper-Space characterized by imaginary time would make the interstellar travel possible in a short time. The Hyper-Space navigation theory would allow a starship to start at any time and from any place for an interstellar travel to the farthest star systems, the whole mission time being within human lifetime. Space propulsion physics such as propulsion theory and navigation theory give us a concrete theoretical method toward galaxy exploration. This paper describes a summary of each theme (Continuum mechanics of Space-Time, Space drive propulsion, Hyper-Space navigation) published so far by author.

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