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Article citationsMore>>

Cetina, C., Heimberg, P., Berman, B.L., Briscoe, W.J., Feldman, G., Murphy, L.Y., Crannell, H., Longhi, A., Sober, D.I., Sanabria, J.C. and Kezerashvili, G.Y. (2002) Photofission of Heavy Nuclei from 0.2 to 3.8 GeV. Physical Review C, 65, Article ID: 044622. http://dx.doi.org/10.1103/PhysRevC.65.044622

has been cited by the following article:

  • TITLE: Project New Orion: Pulsed Nuclear Space Propulsion Using Photofission Activated by Ultra-Intense Laser

    AUTHORS: Robert LeMoyne, Timothy Mastroianni

    KEYWORDS: Project Orion, Pulsed Nuclear Space Propulsion, Photofission, Nuclear Fission, Ultra-Intense Laser, Magneto-Hydrodynamic Generator, Cryogenic Propellant Densification

    JOURNAL NAME: Journal of Applied Mathematics and Physics, Vol.4 No.4, April 13, 2016

    ABSTRACT: Project New Orion entails a pulsed nuclear space propulsion system that utilizes photofission through the implementation of an ultra-intense laser. The historical origins derive from the endeavors of Project Orion, which utilized thermonuclear devices to impart a considerable velocity increment on the respective spacecraft. The shear magnitude of Project Orion significantly detracts from the likelihood of progressive research development testing and evaluation. Project New Orion incorporates a more feasible pathway for the progressive research development testing and evaluation of the pulsed nuclear space propulsion system. Photofission through the application of an ultra-intense laser enables a much more controllable and scalable nuclear yield. The energy source for the ultra-intense laser is derived from a first stage liquid hydrogen and liquid oxygen chemical propulsion system. A portion of the thermal/kinetic energy of the rocket propulsive fluid is converted to electrical energy through a magneto-hydrodynamic generator with cryogenic propellant densification for facilitating the integral superconducting magnets. Fundamental analysis of Project New Orion demonstrates the capacity to impart a meaningful velocity increment through ultra-intense laser derived photofission on a small spacecraft.

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