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The Stretched Lens Array (SLA): An Ultra-Light Photovoltaic Concentrator (2002)

ONeill, Mark J. ; George, Patrick J. ; Botke, Matthew M. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: A high-performance, ultralight, photovoltaic concentrator array is being developed for space power. The stretched lens array (SLA) uses stretched-membrane, silicone Fresnel lenses to concentrate sunlight onto triple-junction photovoltaic cells. The cells are mounted to a composite radiator structure. The entire solar array wing, including lenses, photovoltaic cell flex circuits, composite panels, hinges, yoke, wiring harness, and deployment mechanisms, has a mass density of 1.6 kg/sq.m. NASA Glenn has measured 27.4% net SLA panel efficiency, or 375 W/sq.m. power density, at room temperature. At GEO operating cell temperature (80 C), this power density will be 300 W/sq.m., resulting in more than 180 W/kg specific power at the full wing level. SLA is a direct ultralight descendent of the successful SCARLET array on NASA's Deep Space 1 spacecraft. This paper describes the evolution from SCARLET to SLA, summarizes the SLA's key features, and provides performance and mass data for this new concentrator array.

Keywords: Spacecraft Propulsion and Power

Type: 17th Space Photovoltaic Research and Technology Conference; 14-23; NASA/CP-2002-211831

Format: application/pdf

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Electron Radiation Effects on Candidate Solar Sail Material (2003)

Hubbs, Whitney S. ; Hoppe, David T. ; Hollerman, William A. ; [et al.]

In: CASI

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Publication Date: 2018-06-12

Description: Solar sailing is a unique form of propulsion where a spacecraft gains momentum from incident photons. Solar sails are not limited by reaction mass and provide continual acceleration, reduced only by the lifetime of the lightweight film in the space environment and the distance to the Sun. Once thought to be difficult or impossible, solar sailing has come out of science fiction and into the realm of possibility. Any spacecraft using this propulsion method would need to deploy a thin sail that could be as large as many kilometers in extent. The availability of strong, ultra lightweight, and radiation resistant materials will determine the future of solar sailing. The National Aeronautics and Space Administration's (NASA) Marshall Space Flight Center (MSFC) is concentrating research into the utilization of ultra lightweight materials for spacecraft propulsion. The Space Environmental Effects Team at MSFC is actively characterizing candidate solar sail material to evaluate the thermo-optical and mechanical properties after exposure to space environmental effects. This paper will describe the irradiation of candidate solar sail materials to energetic electrons, in vacuum, to determine the hardness of several candidate sail materials.

Keywords: Spacecraft Propulsion and Power

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Preliminary Photon Pressure Measurements Using a Solar Simulator (2001)

Edwards, David L. ; Gray, Perry A. ; Carruth, M. Ralph, Jr.

In: CASI

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Publication Date: 2019-07-13

Description: Initial proof of concept photon momentum measurements reported verifying photon pressure on a simulated sail material can be measured under high vacuum conditions using a full spectrum solar simulator and a vacuum compatible force measurement system. Second order effects such as sample reflectivity, beam uniformity, radiometric flux measurement accuracy, and the optical system have been accounted for in evaluating these measurements.

Keywords: Spacecraft Propulsion and Power

Type: Aerospace Sciences Meeting; Jan 08, 2001 - Jan 11, 2001; Reno, NV; United States

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