Article citationsMore>>
Chen, H., Wilks, S.C., Bonlie, J.D., Chen, S.N., Cone, K.V., Elberson, L.N., Gregori, G., Meyerhofer, D.D., Myatt, J., Price, D.F., Schneider, M.B., Shepherd, R., Stafford, D.C., Tommasini, R., Van Maren, R. and Beiersdorfer, P. (2009) Making Relativistic Positrons Using Ultraintense Short Pulse Lasers. Physics of Plasmas, 16.
has been cited by the following article:
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TITLE:
Advanced Concept Ramjet Propulsion System Utilizing In-Situ Positron Antimatter Derived from Ultra-Intense Laser with Fundamental Performance Analysis
AUTHORS:
Robert Le Moyne, Timothy Mastroianni
KEYWORDS:
Ultra-Intense Laser, Antimatter, Positron, Antimatter Propulsion, Antimatter Generation, Ramjet Propulsion
JOURNAL NAME:
Journal of Applied Mathematics and Physics,
Vol.2 No.5,
April
24,
2014
ABSTRACT: The fundamental performance analysis of an advanced concept ramjet propulsion system using antimatter is presented. Antimatter is generated by ultra-intense laser pulses incident on a gold target. The scientific foundation for the generation of antimatter by an ultra-intense laser was established in the early 1970’s and later demonstrated at Lawrence Livermore National Laboratory from 2008 to 2009. Antimatter on the scale of 2 × 1010 positrons were generated through a ~1 ps pulse from the Lawrence Livermore National Laboratory Titan laser that has an intensity of ~1020 W/cm2. The predominant mechanism is the Bethe-Heitler process, which involves high-energy bremsstrahlung photons as a result of electron-nuclei interaction. Propulsion involving lasers through chemical rather than non-chemical interaction has been previously advocated by Phipps. The major utilities of the ultra-intense laser derived antimatter ramjet are the capability to generate antimatter without a complex storage system and the ability to decouple the antimatter ramjet propulsion system from the energy source. For instance the ultra-intense laser and energy source could be terrestrial, while the ramjet could be mounted to a UAV as a propulsion system. With the extrapolation of current technologies, a sufficient number of pulses by ultra-intense lasers are eventually anticipated for the generation of antimatter to heat the propulsive flow of a ramjet. Fundamental performance analysis is provided based on an ideal ramjet derivation that is modified to address the proposed antimatter ramjet architecture.
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