R. Gershman scite author profile

R. Gershman

5Publications

111Citation Statements Received

34Citation Statements Given

How they've been cited

145

111

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Affiliations

Jet Propulsion Laboratory, Oracle (United States)

Publications

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300-kW Solar Electric Propulsion System Configuration for Human Exploration of Near-Earth Asteroids

Brophy

Gershman²,

Strange³

et al. 2011

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The use of Solar Electric Propulsion (SEP) can provide significant benefits for the human exploration of near-Earth asteroids. These benefits include substantial cost savingsrepresented by a significant reduction in the mass required to be lifted to low Earth orbitand increased mission flexibility. To achieve these benefits, system power levels of 100's of kW are necessary along with the capability to store and process tens of thousands of kilograms of xenon propellant. The paper presents a conceptual design of a 300-kW SEP vehicle, with the capability to store nearly 40,000 kg of xenon, to support human missions to near-Earth asteroids.

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Scientific exploration of near‐Earth objects via the Orion Crew Exploration Vehicle

Abell

Korsmeyer

Landis

et al. 2009

Meteorit & Planetary Scien

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available online at http://meteoritics.org (CEV) to a near-Earth object (NEO). The ideal mission profile would involve two or three astronauts on a 90 to 180 day flight, which would include a 7 to 14 day stay for proximity operations at the target NEO. This mission would be the first human expedition to an interplanetary body beyond the EarthMoon system and would prove useful for testing technologies required for human missions to Mars and other solar system destinations. Piloted missions to NEOs using the CEV would undoubtedly provide a great deal of technical and engineering data on spacecraft operations for future human space exploration while conducting in-depth scientific investigations of these primitive objects. The main scientific advantage of sending piloted missions to NEOs would be the flexibility of the crew to perform tasks and to adapt to situations in real time. A crewed vehicle would be able to test several different sample collection techniques and target specific areas of interest via extra-vehicular activities (EVAs) more efficiently than robotic spacecraft. Such capabilities greatly enhance the scientific return from these missions to NEOs, destinations vital to understanding the evolution and thermal histories of primitive bodies during the formation of the early solar system. Data collected from these missions would help constrain the suite of materials possibly delivered to the early Earth, and would identify potential source regions from which NEOs originate. In addition, the resulting scientific investigations would refine designs for future extraterrestrial resource extraction and utilization, and assist in the development of hazard mitigation techniques for planetary defense. Scientific exploration of near-Earth objects via the Orion Crew Exploration Vehicle

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Asteroid Return Mission Feasibility Study

Brophy

Gershman

Landau

et al. 2011

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This paper describes an investigation into the technological feasibility of finding, characterizing, robotically capturing, and returning an entire Near-Earth Asteroid (NEA) to the International Space Station (ISS) for scientific investigation, evaluation of its resource potential, determination of its internal structure and other aspects important for planetary defense activities, and to serve as a testbed for human operations in the vicinity of an asteroid. Reasonable projections suggest that several dozen candidates NEAs in the size range of interest (~2-m diameter) will be known before the end of the decade from which a suitable target could be selected. The conceptual mission objective is to return a ~10,000-kg asteroid to the ISS in a total flight time of approximately 5 years using a single Evolved Expendable Launch Vehicle. Preliminary calculations indicate that this could be accomplished using a solar electric propulsion (SEP) system with high-power Hall thrusters and a maximum power into the propulsion system of approximately 40 kW. The SEP system would be used to provide all of the post-launch ∆V. The asteroid would have an unrestricted Earth return Planetary Protection categorization, and would be curated at the ISS where numerous scientific and resource utilization experiments would be conducted. Asteroid material brought to the ground would be curated at the NASA Johnson Space Center. This preliminary study identified several areas where additional work is required, but no show stoppers were identified for the approach that would return an entire 10,000-kg asteroid to the ISS in a mission that could be launched by the end of this decade.

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Venus sample return. A hot topic

Rodgers

Gilmore²,

Sweetser³

et al.

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Europa Lander

Gershman¹,

Nilsen²,

Oberto³

2003

Acta Astronautica

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R. Gershman

300-kW Solar Electric Propulsion System Configuration for Human Exploration of Near-Earth Asteroids

Scientific exploration of near‐Earth objects via the Orion Crew Exploration Vehicle

Asteroid Return Mission Feasibility Study

Venus sample return. A hot topic

Europa Lander

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