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Laser power transmission concepts for Martian applications (1989)

De Young, R. J. ; Humes, D. H. ; Conway, E. J. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Long-term, highly reliable, flexible power will be required to support many diverse activities on Mars and for rapid development of the Mars environment. The potential of laser power transmission for supporting science, materials processing, transportation, and human habitats is discussed. Some advantageous locations for laser power stations in Mars orbit are developed.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: AAS PAPER 87-225

Format: text

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Beamed laser power for advanced space missions (1989)

Conway, E. J. ; De Young, R. J.

In: Other Sources

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Publication Date: 2019-07-12

Description: Advanced civil space missions may benefit substantially from beamed laser power. Recent advances in solar-pumped lasers and electrically driven diode lasers are discussed. Two laser-beamed power applications, for an advanced space station and in support of a high power lunar base, are summarized.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: IAF PAPER ICOSP89-10-4 , Space Power (ISSN 0951-5089); 8; 3 19

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One-megawatt solar pumped and electrically driven lasers for space power transmission (1988)

Schuster, G. ; Williams, M. D. ; Deyoung, R. J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: High power lasers in space could provide power for a variety of future space missions such as spacecraft electric power requirements and laser propulsion. This study investigates four electrically pumped laser systems, krypton fluoride, copper vapor, laser diode array, and the carbon dioxide laser, all scaled to 1-MW laser output. Each system obtained its primary power from a large solar photovoltaic array which, in turn, provides power for the appropriate laser power conditioning subsystem. Each system was block-diagrammed, and the power and efficiency were found for each subsystem. The laser diode array had the highest solar-to-laser efficiency (6 percent) and smallest radiator area making it the most advantageous of the electrically driven lasers studied. This system was then compared with an iodine solar pumped laser system previously studied. The diode array had a better wavelength with regard to transmission optics mass, but it also had a heavier radiator because of its lower temperature radiator requirement. A more advanced solar pumped laser could emerge as the preferred laser system for space applications.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: 1988 IECEC; Jul 31, 1988 - Aug 05, 1988; Denver, CO; United States

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Preliminary conceptual design and weight of a one-megawatt space-based laser power station utilizing a solar-pumped iodine lasant (1987)

Walker, G. H. ; Williams, M. D. ; De Young, R. J. ; [et al.]

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Publication Date: 2019-07-13

Description: A preliminary conceptual design of a space-based solar-pumped iodide laser emitting 1 MW of laser power for space-to-space power transmission is described. A near-parabolic solar collector focuses sunlight onto the t-C4F9I lasant within a transverse-flow optical cavity. Using waste heat, a thermal system supplies compressor and auxiliary power. The major system components are designed with weight estimates assigned. In particular, it is found that laser efficiency is not a dominant weight factor, the dominant factor being the laser transmission optics. The station mass is 92,000 kg, requiring approximately eight Shuttle flights to LEO, where an orbital transfer vehicle can transport it to the final altitude of 6378 km.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: IECEC ''87; Aug 10, 1987 - Aug 14, 1987; Philadelphia, PA; United States

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