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The Lunar Reconnaissance Orbiter: Plans for the Extended Science Phase (2012)

Rice, J. W., Jr. ; Petro, N. E. ; Vondrak, R. R. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The Lunar Reconnaissance Orbiter spacecraft (LRO), launched on June 18, 2009, began with the goal of seeking safe landing sites for future robotic missions or the return of humans to the Moon as part of NASA's Exploration Systems Mission Directorate (ESMD). In addition, LRO's objectives included the search for surface resources and to investigate the Lunar radiation environment. Having marked the two-year anniversary, we will review here the major results from the LRO mission for both exploration and science and discuss plans and objectives going forward including plans for an extended science phase out to 2014.

Keywords: Lunar and Planetary Science and Exploration

Type: GSFC.CPR.6360.2012 , 43rd Lunar and Planetary Science Conference; Mar 19, 2012 - Mar 23, 2012; The Woodlands, TX; United States

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Anticipated Electrical Environment Within Permanently Shadowed Lunar Craters (2010)

Collier, M. R. ; Vondrak, R. R. ; Stubbs, T. J. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Shadowed locations ncar the lunar poles arc almost certainly electrically complex regions. At these locations near the terminator, the local solar wind flows nearly tangential to the surface and interacts with large-scale topographic features such as mountains and deep large craters, In this work, we study the solar wind orographic effects from topographic obstructions along a rough lunar surface, On the leeward side of large obstructions, plasma voids are formed in the solar wind because of the absorption of plasma on the upstream surface of these obstacles, Solar wind plasma expands into such voids) producing an ambipolar potential that diverts ion flow into the void region. A surface potential is established on these leeward surfaces in order to balance the currents from the expansion-limited electron and ion populations, Wc find that there arc regions ncar the leeward wall of the craters and leeward mountain faces where solar wind ions cannot access the surface, leaving an electron-rich plasma previously identified as an "electron cloud." In this case, some new current is required to complete the closure for current balance at the surface, and we propose herein that lofted negatively charged dust is one possible (nonunique) compensating current source. Given models for both ambipolar and surface plasma processes, we consider the electrical environment around the large topographic features of the south pole (including Shoemaker crater and the highly varied terrain near Nobile crater), as derived from Goldstone radar data, We also apply our model to moving and stationary objects of differing compositions located on the surface and consider the impact of the deflected ion flow on possible hydrogen resources within the craters

Keywords: Geophysics

Type: GSFC.JA.4604.2011 , Journal of Geophysical Research; 115

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Low-Latency Telerobotics from Mars Orbit: The Case for Synergy Between Science and Human Exploration (2012)

Garvin, J. B. ; Wilcox, B. ; Vondrak, R. ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: Initial, science-directed human exploration of Mars will benefit from capabilities in which human explorers remain in orbit to control telerobotic systems on the surface (Figure 1). Low-latency, high-bandwidth telerobotics (LLT) from Mars orbit offers opportunities for what the terrestrial robotics community considers to be high-quality telepresence. Such telepresence would provide high quality sensory perception and situation awareness, and even capabilities for dexterous manipulation as required for adaptive, informed selection of scientific samples [1]. Astronauts on orbit in close communication proximity to a surface exploration site (in order to minimize communication latency) represent a capability that would extend human cognition to Mars (and potentially for other bodies such as asteroids, Venus, the Moon, etc.) without the challenges, expense, and risk of putting those humans on hazardous surfaces or within deep gravity wells. Such a strategy may be consistent with goals for a human space flight program that, are currently being developed within NASA.

Keywords: Cybernetics, Artificial Intelligence and Robotics

Type: GSFC.OVPR.6378.2012

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On the Role of Dust in the Lunar Ionosphere (2011)

Glenar, D. A. ; Delory, G. T. ; Stubbs, Timothy J. ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: Evidence suggests that electron concentrations above the dayside lunar surface can be significantly higher than expected from either the photo-ionization of exospheric neutrals or any other well-known process. The Luna 19 mission performed dual-frequency radio occultation experiments in order to determine electron column concentrations above the lunar limb as a function of tangent height (shown in the figure below), The resulting electron concentration profiles surprisingly indicated a peak of approx.500-1000/cu cm and scale heights of approx. 10-30 km. It has been suggested that electrically charged exospheric dust could contribute to these electron cnhancemcnts2 , Here we describe how to estimate the electrons produced by photo-charged dust, which is then used to predict electron concentrations from exospheric dust distribution models that are based on the "excess brightness" observed in Apollo 15 coronal photographs. The results indicate that radio occultation measurements likely provide a valuable perspective on the role of dust in the lunar environment.

Keywords: Lunar and Planetary Science and Exploration

Type: GSFC.ABS.4600.2011

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Could Lunar Polar Ice be a "Fountain" Source for the Dayside Water Veneer? (2011)

Hurley, D. M. ; Delory, G. T. ; Vondrak, R. R. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: We discuss the possibility that the lunar polar regions are a source of a lunar 'rain' which provides a light coating (veneer) of water at mid-latitudes.

Keywords: Lunar and Planetary Science and Exploration

Type: 42nd Lunar and Planetary Science Conference; Mar 07, 2011 - Mar 11, 2011; The Woodlands, TX; United States

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Electrical Evolution of a Dust Plume from a Low Energy Lunar Impact: A Model Analog to LCROSS (2011)

Farrell, W. M. ; Delory, G. T. ; Schultz, P. H. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: A Monte Carlo test particle model was developed that simulates the charge evolution of micron and sub-micron sized dust grains ejected upon low-energy impact of a moderate-size object onto a lunar polar crater floor. Our analog is the LCROSS impact into Cabeus crater. Our primary objective is to model grain discharging as the plume propagates upwards from shadowed crater into sunlight.

Keywords: Lunar and Planetary Science and Exploration

Type: 42ns Lunar and Planetary Science Conference; Mar 07, 2011 - Mar 11, 2011; The Woodlands, TX; United States

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Dependence of Lunar Surface Charging on Solar Wind Plasma Conditions and Solar Irradiation (2014)

Vondrak, R. R. ; Farrell, W. M. ; Delory, G. T. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: The surface of the Moon is electrically charged by exposure to solar radiation on its dayside, as well as by the continuous flux of charged particles from the various plasma environments that surround it. An electric potential develops between the lunar surface and ambient plasma, which manifests itself in a near-surface plasma sheath with a scale height of order the Debye length. This study investigates surface charging on the lunar dayside and near-terminator regions in the solar wind, for which the dominant current sources are usually from the pohotoemission of electrons, J(sub p), and the collection of plasma electrons J(sub e) and ions J(sub i). These currents are dependent on the following six parameters: plasma concentration n(sub 0), electron temperature T(sub e), ion temperature T(sub i), bulk flow velocity V, photoemission current at normal incidence J(sub P0), and photo electron temperature T(sub p). Using a numerical model, derived from a set of eleven basic assumptions, the influence of these six parameters on surface charging - characterized by the equilibrium surface potential, Debye length, and surface electric field - is investigated as a function of solar zenith angle. Overall, T(sub e) is the most important parameter, especially near the terminator, while J(sub P0) and T(sub p) dominate over most of the dayside.

Keywords: Plasma Physics

Type: GSFC-E-DAA-TN31412 , Planetary and Space Science (ISSN 0032-0633); 90; 10-27

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The Enigma of Lunar Dust Transport (2011)

Stubbs, T. J. ; Halekas, J. S. ; Delory, G. T. ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: We will review the highly contrasting points of view regarding the ability of fine dust grains to become transported in the near-space lunar environment. While Surveyor and Apollo camera images suggest the presence of a horizon glow that has been provocatively interpreted as levitated and/or lofted dust, there is contrasting geological evidence to indicate that surface regolith has not been moved in a substantial way. While electric forces have been suggested as a driver for grain dynamics, recent detailed modeling of near-surface non-monotonic potentials would suggest grains could not get to large heights. While lofting models require submicron grains to hold/contain 100's of elementary charges, it can be shown analytical1y that a grain residing on a flat surface would have an extremely low probability of having even a single electron on its surface, Can these diametrically opposing viewpoints be reconciled? We will review the pros and cons on both sides. and suggest that the UVS and LDEX instrument on LADEE will provide key new insights on dust transport at the Moon.

Keywords: Lunar and Planetary Science and Exploration

Type: GSFC.ABS.4784.2011 , NASA Lunar Science Institute Forum; Jul 19, 2011 - Jul 21, 2011; Moffett Field, CA; United States

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Space Environmental Erosion of Polar Icy Regolith (2011)

Vondrak, R. R. ; Killen, R. M. ; Farrell, William M. ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: While regions at the floors of permanently shadowed polar craters are isolated from direct sunlight, these regions are still exposed to the harsh space environment, including the interplanetary Lyman-a background, meteoric impacts, and obstacle-affected solar wind. We demonstrate that each of these processes can act to erode the polar icy regolith located at or near the surface along the crater floor. The Lyman-a background can remove/erode the icy-regolith via photon stimulated desorption [1], meteoric impacts can vaporize the regolith [2], and redirected solar wind ions can sputter the ice-regolith mix [3]. As an example we shall examine in detail the inflow of solar wind ions and electrons into polar craters, One might expect such ions to flow horizontally over the crater top (see Figure). However, we find that plasma ambipolar processes act to deflect passing ions into the craters [3]. We examine this plasma process and determine the ion flux as a function of position across a notional crater floor. We demonstrate that inflowing solar wind ions can indeed create sputtering along the crater floor, effectively eroding the surface. Erosion time scales rrom sputtering will be presented. We shall also consider the effect of impact vaporization on buried icy-regolith regions. There will also be a discussion of solar wind electrons that enter into the PSR, demonstrating that these also have the ability rree surface-bound atoms via electron stimulated desorption processes [l].

Keywords: Solar Physics

Type: GSFC.ABS.4587.2011 , Wet vs Dry Moon meeting; Jun 12, 2011 - Jun 14, 2011; Houston, TX; United States

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