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Lunar Reconnaissance Orbiter

 

LRO Team Publications

* indicates first author was student at the time the research was completed, supported by LRO funds
‡ indicates first author was an early career scientist, within 5 years of earning Ph.D., at time of publication


2017

Bandfield, J. L., J. T. S. Cahill, L. M. Carter, C. D. Neish, G. W. Patterson, J.-P. Williams, and D. A. Paige (2017), Distal ejecta from lunar impacts: Extensive regions of rocky deposits, Icarus, 283, 282-299.

Boyce, J. M., T. A. Giguere, B. R. Hawke, P. J. Mouginis-Mark, M. S. Robinson, S. J. Lawrence, D. Trang, and R. N. Clegg-Watkins (2017), Hansteen Mons: An LROC geological perspective, Icarus, 283, 254-267.

Carter, L. M., B. A. Campbell, C. D. Neish, M. C. Nolan, G. W. Patterson, J. R. Jensen, and D. B. J. Bussey (2017), A Comparison of Radar Polarimetry Data of the Moon From the LRO Mini-RF Instrument and Earth-Based Systems, IEEE Transactions on Geoscience and Remote Sensing, 55, 1915-1927.

Clark, J. D., J. J. M. Hurtado, H. Hiesinger, C. H. van der Bogert, and H. Bernhardt (2017), Investigation of newly discovered lobate scarps: Implications for the tectonic and thermal evolution of the Moon, Icarus, 298, 78-88.

Clegg-Watkins, R. N., B. L. Jolliff, M. J. Watkins, E. Coman, T. A. Giguere, J. D. Stopar, and S. J. Lawrence (2017), Nonmare volcanism on the Moon: Photometric evidence for the presence of evolved silicic materials, Icarus, 285, 169-184.

Donaldson Hanna, K. L., B. T. Greenhagen, W. R. Patterson, C. M. Pieters, J. F. Mustard, N. E. Bowles, D. A. Paige, T. D. Glotch, and C. Thompson (2017), Effects of varying environmental conditions on emissivity spectra of bulk lunar soils: Application to Diviner thermal infrared observations of the Moon, Icarus, 283, 326-342.

Elder, C. M., P. O. Hayne, J. L. Bandfield, R. R. Ghent, J.-P. Williams, K. L. Donaldson Hanna, and D. A. Paige (2017), Young lunar volcanic features: Thermophysical properties and formation, Icarus, 290, 224-237.

Fisher, E. A., et al. (2017), Evidence for surface water ice in the lunar polar regions using reflectance measurements from the Lunar Orbiter Laser Altimeter and temperature measurements from the Diviner Lunar Radiometer Experiment, Icarus, 292, 74-85.

Gläser, P., J. Oberst, G. A. Neumann, E. Mazarico, E. J. Speyerer, and M. S. Robinson Illumination conditions at the lunar poles: Implications for future exploration, Planetary and Space Science.

Grava, C., T. J. Stubbs, D. A. Glenar, K. D. Retherford, and D. E. Kaufmann (2017), Absence of a detectable lunar nanodust exosphere during a search with LRO's LAMP UV imaging spectrograph, GRL, 44, 4591-4598.

Henriksen, M. R., et al. (2017), Extracting accurate and precise topography from LROC narrow angle camera stereo observations, Icarus, 283, 122-137.

Hurley, D. M., and M. Benna Simulations of lunar exospheric water events from meteoroid impacts, Planetary and Space Science.

Hurley, D. M., et al. (2017), Contributions of solar wind and micrometeoroids to molecular hydrogen in the lunar exosphere, Icarus, 283, 31-37.

Jordan, A. P., T. J. Stubbs, J. K. Wilson, N. A. Schwadron, and H. E. Spence (2017), The rate of dielectric breakdown weathering of lunar regolith in permanently shadowed regions, Icarus, 283, 352-358.

Keller, J. W., L. Gaddis, N. Petro, and O. Aharonson (2017), Preface: The Lunar Reconnaissance Orbiter, Icarus, 298, 1.

Lucey, P. G., B. T. Greenhagen, E. Song, J. A. Arnold, M. Lemelin, K. D. Hanna, N. E. Bowles, T. D. Glotch, and D. A. Paige (2017), Space weathering effects in Diviner Lunar Radiometer multispectral infrared measurements of the lunar Christiansen Feature: Characteristics and mitigation, Icarus, 283, 343-351.

Mao, D., et al. (2017), The laser ranging experiment of the Lunar Reconnaissance Orbiter: Five years of operations and data analysis, Icarus, 283, 55-69.

Mazarico, E., D. D. Rowlands, T. J. Sabaka, K. M. Getzandanner, D. P. Rubincam, J. B. Nicholas, and M. C. Moreau (2017), Recovery of Bennu's orientation for the OSIRIS-REx mission: implications for the spin state accuracy and geolocation errors, Journal of Geodesy.

Mitchell, J., S. Lawrence, M. Robinson, E. Speyerer, and B. Denevi Using complementary remote sensing techniques to assess the presence of volatiles at the lunar north pole, Planetary and Space Science.

Patterson, G. W., et al. (2017), Bistatic radar observations of the Moon using Mini-RF on LRO and the Arecibo Observatory, Icarus, 283, 2-19.

Petro, N. E., J. W. Keller, and L. R. Gaddis (2017), Editorial Introduction: Lunar Reconnaissance Orbiter, part II, Icarus, 283, 1-1.

Sanin, A. B., et al. (2017), Hydrogen distribution in the lunar polar regions, Icarus, 283, 20-30.

Sato, H., M. S. Robinson, S. J. Lawrence, B. W. Denevi, B. Hapke, B. L. Jolliff, and H. Hiesinger (2017), Lunar mare TiO2 abundances estimated from UV/Vis reflectance, Icarus, 296, 216-238.

Sefton-Nash, E., J. P. Williams, B. T. Greenhagen, K. M. Aye, and D. A. Paige (2017), Diviner lunar radiometer gridded brightness temperatures from geodesic binning of modeled fields of view, Icarus, 298, 98-110.

Smith, D. E., et al. (2017), Summary of the results from the lunar orbiter laser altimeter after seven years in lunar orbit, Icarus, 283, 70-91.

Starr, R. D., et al. Crater age and hydrogen content in lunar regolith from LEND neutron data, Planetary and Space Science.

Stopar, J. D., B. L. Jolliff, E. J. Speyerer, E. I. Asphaug, and M. S. Robinson Potential impact-induced water-solid reactions on the Moon, Planetary and Space Science.

Stopar, J. D., M. S. Robinson, O. S. Barnouin, A. S. McEwen, E. J. Speyerer, M. R. Henriksen, and S. S. Sutton (2017), Relative depths of simple craters and the nature of the lunar regolith, Icarus, 298, 34-48.

van der Bogert, C. H., H. Hiesinger, C. M. Dundas, T. Krüger, A. S. McEwen, M. Zanetti, and M. S. Robinson (2017), Origin of discrepancies between crater size-frequency distributions of coeval lunar geologic units via target property contrasts, Icarus, 298, 49-63.

Wagner, R. V., D. M. Nelson, J. B. Plescia, M. S. Robinson, E. J. Speyerer, and E. Mazarico (2017), Coordinates of anthropogenic features on the Moon, Icarus, 283, 92-103.

Watters, W. A., L. M. Geiger, M. Fendrock, R. Gibson, and C. B. Hundal (2017), The role of strength defects in shaping impact crater planforms, Icarus, 286, 15-34.

Williams, J.-P., D. A. Paige, B. T. Greenhagen, and E. Sefton-Nash (2017), The global surface temperatures of the Moon as measured by the Diviner Lunar Radiometer Experiment, Icarus, 283, 300-325.

Zanetti, M., A. Stadermann, B. Jolliff, H. Hiesinger, C. H. van der Bogert, and J. Plescia (2017), Evidence for self-secondary cratering of Copernican-age continuous ejecta deposits on the Moon, Icarus, 298, 64-77.

2016

Allen, C.C., Bennett, K.A., Greenhagen, B.T., Paige, D.A., 2016. Taurus Littrow pyroclastic deposit: An optimum site for lunar oxygen production. Icarus in review.

‡Arnold, J.A., Glotch, T.D., Lucey, P.G., Song, E., Thomas, I.R., Bowles, N.E., 2016. Lunar olivine as seen by Diviner and M3: A comparison of MIR and VNIR spectral data. J. Geophys. Res. Planets in review.

Ashley, J.W., Robinson, M.S., Stopar, J.D., Glotch, T.D., Hawke, B.R., van der Bogert, C.H., Hiesinger, H., Lawrence, S.J., Jolliff, B.L., Greenhagen, B.T., Giguere, T.A., Paige, D.A., 2016. The Lassell mas- sif—A silicic lunar volcano. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2015.12.036.

*‡Atwood-Stone, C., Bray, V.J., McEwen, A.S., 2016. A new study of crater concentric ridges on the Moon. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2016.03.012.

‡Baker, D.M.H., Head, J.W., Collins, G.S., Potter, R.W.K., 2016. The formation of peak-ring basins: Working hypotheses and path forward in using observations to constrain models of impact-basin for- mation. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2015.11.033.

Bandfield, J.L., Chill, J.T.S., Carter, L.M., Neish, C.D., Patterson, G.W., Williams, J.-P., Paige, D.A., 2016. Distal ejecta from lunar impacts: Extensive regions of rocky deposits. Icarus in review.

Barker, M.K., Mazarico, E., Neumann, G.A., Zuber, M.T., Haruyama, J., Smith, D.E., 2016a. A new lunar digital elevation model from the Lunar Orbiter Laser Altimeter and SELENE Terrain Camera. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2015.07.039.

Barker, M.K., Sun, X., Mazarico, E., Neumann, G.A., Zuber, M.T., Smith, D.E., 2016b. Lunar phase function at 1064 nm from Lunar Orbiter Laser Altimeter passive and active radiometry. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2016.02.008.

Boyce, J.M., Giguere, T.A., Hawke, B.R., Mouginis-Mark, P.J., Robinson, M.S., Lawrence, S.J., Trang, D., Clegg-Watkins, R.N., 2016. Hansteen Alpha: 2. An LROC geological perspective. Icarus in revi- sion.

*‡Braden, S.E., Robinson, M.S., Lawrence, S.J., Hawke, B.R., Giguere, T.A., Glotch, T.D., 2016. The Gruithuisen Domes: Age and morphology of silicic nonmare volcanism. Icarus in revision.

Carter, L.M., Campbell, B.A., Neish, C.D., Nolan, M.C., Patterson, G.W., Jensen, J.R., Bussey, D.B.J., 2016. A comparison of radar polarimetry data of the Moon from the LRO Mini-RF instrument and Earth-based systems. IEEE Trans. Geosci. Rem. Sensing submitted.

*‡Clark, J.D., Hurtado Jr., J.M., Hiesinger, H., van der Bogert, C.H., Bernhardt, H., 2016. Investigation of lobate scarps: Implications for the tectonic and thermal evoluation of the Moon. Icarus in revision.

*‡Clegg-Watkins, R.N., Jolliff, B.L., Boyd, A., Robinson, M.S., Wagner, R., Stopar, J.D., Plescia, J.B., Speyerer, E.J., 2016. Photometric characterization of the Chang’e-3 landing site using LROC NAC images. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2015.12.010.

Denevi, B.W., Robinson, M.S., Boyd, A.K., Blewett, D.T., Klima, R.L., 2016. The distribution and ex- tent of lunar swirls. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2016.01.017.

‡Donaldson Hanna, K.L., Greenhagen, B.T., Patterson III, W.R., Pieters, C.M., Mustard, J.F., Bowles, N.E., Paige, D.A., Glotch, T.D., Thompson, C., 2016. Effects of varying environmental conditions on emissivity spectra of bulk lunar soils: Application to Diviner thermal infrared observations of the Moon. Icarus in review.

Ghent, R.R., Carter, L.M., Bandfield, J.L., Tai Udovicic, C.J., Campbell, B.A., 2016. Lunar crater ejecta: Physical properties revealed by radar and thermal infrared observations. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2015.12.014.

‡Grava, C., Retherford, K.D., Hurley, D.M., Feldman, P.D., Gladstone, G.R., Greathouse, T.K., Cook,

J.C., Stern, S.A., Pryor, W.R., Halekas, J.S., Kaufmann, D.E., 2016. Lunar exospheric helium ob- servations of LRO/LAMP coordinated with ARTEMIS. Icarus in press. https://dx.doi.org/10.1016/j. icarus.2015.10.033.

Greenhagen, B.T., Neish, C.D., Williams, J.-P., Cahill, J.T.S., Ghent, R.R., Hayne, P.O., Lawrence, S.J., Petro, N.E., Bandfield, J.L., 2016. Origin of the anomalously rocky appearance of Tsiolkovskiy crater. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2016.02.041.

Hapke, B., Sato, H., 2016. The porosity of the upper lunar regolith. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2015.10.031.

Hendrix, A.R., Greathouse, T.K., Retherford, K.D., Mandt, K.E., Gladstone, G.R., Kaufmann, D.E., Hurley, D.M., Feldman, P.D., Pryor, W.R., Stern, S.A., Cahill, J.T.S., 2016. Lunar swirls: Far-UV characteristics. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2016.01.003.

‡Henriksen, M.R., Manheim, M.R., Burns, K.N., Seymour, P., Speyerer, E.J., Deran, A., Boyd, A.K., Howington-Kraus, E., Rosiek, M.R., Archinal, B.A., Robinson, M.S., 2016. Extracting accurate and precise topography from LROC Narrow Angle Camera stereo observations. Icarus in revision.

Hurley, D.M., Cook, J.C., Benna, M., Halekas, J.S., Feldman, P.D., Retherford, K.D., Hodges, R.R., Grava, C., Mahaffy, P., Gladstone, G.R., Greathouse, T., Kaufmann, D.E., Elphic, R.C., Stern, S.A., 2016. Understanding temporal and spatial variability of the lunar helium atmosphere using simulta- neous observations from LRO, LADEE, and ARTEMIS. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2015.09.011.

Keller, J.W., Petro, N.E., Vondrak, R.R., 2016. The Lunar Reconnaissance Orbiter Mission – Six years of science and exploration at the Moon. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2015.11.024.

*‡Krüger, T., van der Bogert, C.H., Hiesinger, H., 2016. Geomorphologic mapping of the lunar crater Tycho and its impact melt deposits. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2016.02.018.

*‡Lemelin, M., Lucey, P.G., Neumann, G.A., Mazarico, E.M., Barker, M.K., Kakazu, A., Trang, D., Smith, D.E., Zuber, M.T., 2016. Improved calibration of reflectance data from the LRO Lunar Or- biter Laser Altimeter (LOLA) and implications for space weathering. Icarus in press.https://dx.doi.org/10.1016/j.icarus.2016.02.006.

Litvak, M.L., Mitrofanov, I.., Sanin, A.B., Bakhtin, B.N., Bodnarik, J.G., Boynton, W.V., Chin, G., Evans, L.G., Harshman, K., Livengood, T.A., Malakhov, A., Mokrousov, M.I., McClanahan, T.P., Sagdeev, R., Starr, R., 2016. The variations of neutron component of lunar radiation background from LEND/LRO observations. Planet. Space Sci. 122, 53–65. https://dx.doi.org/10.1016/j.pss.2016.01.006.

Livengood, T.A., Mitrofanov, I.G., Boynton, W.V., Chin, G., Bodnarik, J., Evans, L.G., Golovin, D., Harshman, K., Litvak, M., McClanahan, T.P., Sagdeev, R., Sanin, A., Starr, R.D., Su, J.J., 2016. Neu- tron populations detected by LEND and Average Concentration of near-Surface Hydrogen Near the Moon’s Poles. Icarus in review.

Lucey, P.G., Greenhagen, B.T., Song, E., Arnold, J.A., Lemelin, M., Donaldson Hanna, K., Bowles, N., Glotch, T.D., Paige, D.A., 2016. Space weathering effects in Diviner Radiometer measurements of the lunar Christiansen Feature: Characteristics and mitigation. Icarus in review.

Mandt, K.E., Greathouse, T.K., Retherford, K.D., Randall Gladstone, G., Jordan, A.P., Lemelin, M., Koeber, S.D., Bowman-Cisneros, E., Patterson, G.W., Robinson, M.S., Lucey, P.G., Hendrix, A.R., Hurley, D., Stickle, A.M., Pryor, W., 2016. LRO-LAMP detection of geologically young craters within lunar permanently shaded regions. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2015.07.031.

McClanahan, T.P., Mitrofanov, I.G., Boynton, W. V, Chin, G., Bodnarik, J., Droege, G., Evans, L.G., Golovin, D., Hamara, D., Harshman, K., Litvak, M., Livengood, T.A., Malakhov, A., Mazarico, E., Milikh, G., Nandikotkur, G., Parsons, A., Sagdeev, R., Sanin, A., Starr, R.D., Su, J.J., Murray, J., 2016. Evidence for diurnally varying surface hydration in the Moon’s high latitudes. Icarus in review.

*‡Meyer, H.M., Denevi, B.W., Boyd, A.K., Robinson, M.S., 2016. The distribution and origin of lunar light plains around Orientale basin. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2016.02.014.

Patterson, G.W., Bussey, D.B.J., Stickle, A.M., Turner, F.S., Jensen, J. R., Nolan, M., Yocky, D.A., Wahl,

D.E., Cahill, J.T.S., Mini-RF Team, 2015. Mini-RF on LRO and Arecibo Observatory Bistatic Radar Observations of the Moon. Icarus submitted.

Plescia, J.B., Robinson, M.S., 2016. Giordano Bruno: Small crater populations – Implications for self- secondary cratering. Icarus in revision.

Plescia, J.B., Robinson, M.S., Wagner, R., Baldridge, R., 2016. Ranger and Apollo S-IVB spacecraft impact craters. Planet. Space Sci. in press. https://dx.doi.org/10.1016/j.pss.2016.01.002.

Robinson, M.S., Thomas, P.C., Plescia, J.B., Denevi, B.W., Burns, K.N., Bowman-Cisneros, E., Henrik- sen, M.R., van der Bogert, C.H., Hiesinger, H., Mahanti, P., Stelling, R.W., Povilaitis, R.Z., 2016. An exceptional grouping of lunar highland smooth plains: Geography, morphology, and possible origins. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2015.06.028.

Sanin, A.B., Mitrofanov, I.G., Bakhtin, B.N., Bodnarik, J.G., Boynton, W.V., Chin, G., Evans, L.G., Harshman, K., Livengood, T.A., Fedosov, D.V., Golovin, A. S., Kozyrev, Litvak, M.L., Malakhov, T.A., McClanahan, T.P., Starr, R.D., Sagdeev, R.Z., Tret’yakov, V.I., Vostrukhin, A.A., 2016. Hydrogen distribution at the lunar polar regions. Icarus in review.

Schwadron, N.A., Wilson, J.K., Looper, M.D., Jordan, A.P., Spence, H.E., Blake, J.B., Case, A.W., Iwata,

Y., Kasper, J.C., Farrell, W.M., Lawrence, D.J., Livadiotis, G., Mazur, J., Petro, N., Pieters, C., Rob- inson, M.S., Smith, S., Townsend, L.W., Zeitlin, C., 2016. Signatures of volatiles in the lunar proton albedo. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2015.12.003.

Sefton-Nash, E., Williams, J.-P., Greenhagen, B.T., Aye, K.-M., Paige, D.A., 2016. Diviner Lunar Ra- diometer gridded brightness temperatures from geodesic binning of modeled fields of view. Icarus in review.

*‡Shirley, K.A., Zanetti, M., Jolliff, B., van der Bogert, C.H., Hiesinger, H., 2016. Crater size-frequency distribution measurements and age of the Compton-Belkovich Volcanic Complex. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2016.03.015.

‡Siegler, M.A., Miller, R.S., Keane, J.T., Laneuville, M., Paige, D.A., Matsuyama, I., Lawrence, D.J., Crotts, A., Poston, M.J., 2016. Lunar true polar wander inferred from polar hydrogen. Nature 531, 480–484. https://dx.doi.org/10.1038/nature17166.

‡Singer, K.N., Jolliff, B.L., McKinnon, W.B., Plescia, J.B., 2016. Insights into lunar impact ejecta physics from high-resolution mapping of secondary craters. J. Geophys. Res. Planets in revision.

‡Speyerer, E.J., Lawrence, S.J., Stopar, J.D., Gläser, P., Robinson, M.S., Jolliff, B.L., 2016. Optimized traverse planning for future polar prospectors based on lunar topography. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2016.03.011.

‡Speyerer, E.J., Povilaitis, R.Z., Robinson, M.S., Thomas, P.C., Wagner, R.V., 2016. Quantifying current impact and regolith gardening rates on the Moon with temporal imaging. Nature submitted.

‡Stickle, A.M., Patterson, G.W., Cahill, J.T.S., Bussey, D.B.., 2016. Mini-RF and LROC observations of mare crater layering relationships. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2016.03.014.

*‡Stopar, J.D., Robinson, M.S., Barnouin, O.S., McEwen, A.M., Speyerer, E.J., Sutton, S., Henriksen, M.R., 2016. Relative depths of simple craters and the nature of the lunar regolith. Icarus submitted.

van der Bogert, C.H., Hiesinger, H., Dundas, C.M., Krüger, T., McEwen, A.S., Zanetti, M., Robinson, M.S., 2016. Origin of discrepancies between crater size-frequency distributions of coeval lunar geologic units via target property contrasts. Icarus in revision.

‡Wagner, R.V., Nelson, D.M., Plescia, J.B., Robinson, M.S., Speyerer, E.J., Mazarico, E.M., 2016. Coor- dinates of anthropogenic features on the Moon. Icarus accepted.

Williams, J.-P., Paige, D.A., Greenhagen, B.T., Sefton-Nash, E., 2016. The global surface temperatures of the Moon as measured by the Diviner Lunar Radiometer Experiment. Icarus in review.

Williams, J.-P., Sefton-Nash, E., Paige, D.A., 2016. The temperatures of Giordano Bruno crater observed by the Diviner Lunar Radiometer Experiment: Application of an effective field of view model for a point-based data set. Icarus in press. https://dx.doi.org/10.1016/j.icarus.2015.10.034.

*‡Williams, N.R., Bell III, J.F., Watters, T.R., Banks, M.E., Daud, K., French, R.A., 2016. Evidence for recent and ancient faulting at Mare Frigoris and implications for lunar tectonic evolution. Icarus submitted.

*‡Zanetti, M., Hiesinger, H., van der Bogert, C.H., Plescia, J.B., Jolliff, B.L., 2016. Evidence for autosecondary cratering of Copernican-age continuous ejecta deposits on the Moon. Icarus in revision.

Zeitlin, C., Case, A.W., Schwadron, N.A., Spence, H.E., Mazur, J.E., Joyce, C.J., Looper, M.D., Jordan,

A., Rios, R.R., Townsend, L.W., Kasper, J.C., Blake, J.B., Smith, S., Wilson, J., Iwata, Y., 2016. Solar modulation of the deep space galactic cosmic ray lineal energy spectrum measured by CRaTER, 2009- 2014. Space Weather 14. https://dx.doi.org/10.1002/2015SW001314.


2015

*‡Baker, D.M.H., Head, J.W., 2015. Constraints on the depths of origin of peak rings on the Moon from Moon Mineralogy Mapper data. Icarus 258, 164–180. https://dx.doi.org/10.1016/j.icarus.2015.06.013.

Bandfield, J.L., Hayne, P.O., Williams, J.-P., Greenhagen, B.T., Paige, D.A., 2015. Lunar surface roughness derived from LRO Diviner Radiometer observations. Icarus 248, 357–372. https://dx.doi.org/10.1016/j.icarus.2014.11.009.

*‡French, R.A., Bina, C.R., Robinson, M.S., Watters, T.R., 2015. Small-scale lunar graben: Distri- bution, dimensions, and formation processes. Icarus 252, 95–106. https://dx.doi.org/10.1016/j.ica- rus.2014.12.031.

Glotch, T.D., Bandfield, J.L., Lucey, P.G., Hayne, P.O., Greenhagen, B.T., Arnold, J.A., Ghent, R.R., Paige, D.A., 2015. Formation of lunar swirls by magnetic field standoff of the solar wind. Nat. Com- mun. 6, 6189. https://dx.doi.org/10.1038/ncomms7189.

‡Grava, C., Chaufray, J.-Y., Retherford, K.D., Gladstone, G.R., Greathouse, T.K., Hurley, D.M., Hodg- es, R.R., Bayless, A.J., Cook, J.C., Stern, S.A., 2015. Lunar exospheric argon modeling. Icarus 255, 135–147. https://dx.doi.org/10.1016/j.icarus.2014.09.029.

Hare, T.M., Hayward, R.K., Blue, J.S., Archinal, B.A., Robinson, M.S., Speyerer, E.J., Wagner, R.V., Smith, D.E., Zuber, M.T., Neumann, G.A., Mazarico, E.M., 2015. Image mosaic and topographic map of the Moon: U.S. Geological Survey Scientific Investigations Map 3316 (2 sheets). U.S. Geologi- cal Survey Scientific Imvestigations Map 3316, Denver, Colorado.

‡Hayne, P.O., Hendrix, A., Sefton-Nash, E., Siegler, M.A., Lucey, P.G., Retherford, K.D., Williams, J.-P., Greenhagen, B.T., Paige, D.A., 2015. Evidence for exposed water ice in the Moon’s south polar regions from Lunar Reconnaissance Orbiter ultraviolet albedo and temperature measurements. Icarus 255, 58–69. https://dx.doi.org/10.1016/j.icarus.2015.03.032.

Humm, D.C., Tschimmel, M., Brylow, S.M., Mahanti, P., Tran, T.N., Braden, S.E., Wiseman, S., Dan- ton, J., Eliason, E.M., Robinson, M.S., 2015. Flight Calibration of the LROC Narrow Angle Camera. Space Sci. Rev. https://dx.doi.org/10.1007/s11214-015-0201-8.

Hurley, D.M., Sarantos, M., Grava, C., Williams, J.-P., Retherford, K.D., Siegler, M., Greenhagen, B., Paige, D., 2015. An analytic function of lunar surface temperature for exospheric modeling. Icarus 255, 159–163. https://dx.doi.org/10.1016/j.icarus.2014.08.043.

‡Jordan, A.P., Stubbs, T.J., Wilson, J.K., Schwadron, N.A., Spence, H.E., 2015. Dielectric break- down weathering of the Moon’s polar regolith. J. Geophys. Res. Planets 120, 210–225. https://dx.doi.org/10.1002/2014JE004710.

*‡Joyce, C.J., Schwadron, N.A., Townsend, L.W., Mewaldt, R.A., Cohen, C.M.S., von Rosenvinge, T.T., Case, A.W., Spence, H.E., Wilson, J.K., Gorby, M., Quinn, M., Zeitlin, C.J., 2015. Analysis of the potential radiation hazard of the 23 July 2012 SEP event observed by STEREO A using the EMMREM model and LRO/CRaTER. Space Weather 13, 560–567. https://dx.doi.org/10.1002/2015SW001208.

*‡Jozwiak, L.M., Head, J.W., Wilson, L., 2015. Lunar floor-fractured craters as magmatic intrusions: Ge- ometry, modes of emplacement, associated tectonic and volcanic features, and implications for gravity anomalies. Icarus 248, 424–447. https://dx.doi.org/10.1016/j.icarus.2014.10.052.

Livengood, T.A., Chin, G., Sagdeev, R.Z., Mitrofanov, I.G., Boynton, W.V., Evans, L.G., Litvak, M.L.,

McClanahan, T.P., Sanin, A.B., Starr, R.D., Su, J.J., 2015. Moonshine: Diurnally varying hydra- tion through natural distillation on the Moon, detected by the Lunar Exploration Neutron Detector (LEND). Icarus 255, 100–115. https://dx.doi.org/10.1016/j.icarus.2015.04.004.

‡Mahanti, P., Humm, D.C., Robinson, M.S., Boyd, A.K., Stelling, R., Sato, H., Denevi, B.W., Braden, S.E., Bowman-Cisneros, E., Brylow, S.M., Tschimmel, M., 2015. Inflight Calibration of the Lunar Re- connaissance Orbiter Camera Wide Angle Camera. Space Sci. Rev. https://dx.doi.org/10.1007/s11214- 015-0197-0

Mazur, J.E., Zeitlin, C., Schwadron, N., Looper, M.D., Townsend, L.W., Blake, J.B., Spence, H., 2015. Update on Radiation Dose From Galactic and Solar Protons at the Moon Using the LRO/CRaTER Microdosimeter. Space Weather 13, 363–364. https://dx.doi.org/10.1002/2015SW001175.

McClanahan, T.P., Mitrofanov, I.G., Boynton, W.V., Chin, G., Bodnarik, J., Droege, G., Evans, L.G., Golovin, D., Hamara, D., Harshman, K., Litvak, M., Livengood, T.A., Malakhov, A., Mazarico, E., Milikh, G., Nandikotkur, G., Parsons, A., Sagdeev, R., Sanin, A., Starr, R.D., Su, J.J., Murray, J., 2015. Evidence for the sequestration of hydrogen-bearing volatiles towards the Moon’s southern pole-facing slopes. Icarus 255, 88–99. https://dx.doi.org/10.1016/j.icarus.2014.10.001.

*‡Pasckert, J.H., Hiesinger, H., van der Bogert, C.H., 2015. Small-scale lunar farside volcanism. Icarus 257, 336–354. https://dx.doi.org/10.1016/j.icarus.2015.04.040.

Robinson, M.S., Boyd, A.K., Denevi, B.W., Lawrence, S.J., McEwen, A.S., Moser, D.E., Povilaitis, R.Z., Stelling, R.W., Suggs, R.M., Thompson, S.D., Wagner, R.V., 2015. New crater on the Moon and a swarm of secondaries. Icarus 252, 229–235. https://dx.doi.org/10.1016/j.icarus.2015.01.019.

‡Rosenburg, M.A., Aharonson, O., Sari, R., 2015. Topographic power spectra of cratered ter- rains: Theory and application to the Moon. J. Geophys. Res. Planets 120, 177–194. https://dx.doi.org/10.1002/2014JE004746.

‡Siegler, M., Paige, D., Williams, J.-P., Bills, B., 2015. Evolution of lunar polar ice stability. Icarus 255, 78–87. https://dx.doi.org/10.1016/j.icarus.2014.09.037.

*‡Trang, D., Gillis-Davis, J.J., Boyce, J.M., 2015. Absolute model ages from lunar crater morphology: Age determination from crater morphology. J. Geophys. Res. Planets 120, 725–738. https://dx.doi.org/10.1002/2014JE004639.

*‡Tye, A.R., Fassett, C.I., Head, J.W., Mazarico, E., Basilevsky, A.T., Neumann, G.A., Smith, D.E., Zuber, M.T., 2015. The age of lunar south circumpolar craters Haworth, Shoemaker, Faustini, and Shackleton: Implications for regional geology, surface processes, and volatile sequestration. Icarus 255, 70–77. https://dx.doi.org/10.1016/j.icarus.2015.03.016.

Watters, T.R., Robinson, M.S., Collins, G.C., Banks, M.E., Daud, K., Williams, N.R., Selvans, M.M., 2015. Global thrust faulting on the Moon and the influence of tidal stresses. Geology 43, 851–854. https://dx.doi.org/10.1130/G37120.1.

*‡Whitten, J.L., Head, J.W., 2015. Lunar cryptomaria: Physical characteristics, distribution, and implica- tions for ancient volcanism. Icarus 247, 150–171. https://dx.doi.org/10.1016/j.icarus.2014.09.031.


2014

Bandfield, J.L., Song, E., Hayne, P.O., Brand, B.D., Ghent, R.R., Vasavada, A.R., Paige, D.A., 2014. Lunar cold spots: Granular flow features and extensive insulating materials surrounding young craters. Icarus 231, 221–231. https://dx.doi.org/10.1016/j.icarus.2013.12.017.

*‡Braden, S.E., Stopar, J.D., Robinson, M.S., Lawrence, S.J., van der Bogert, C.H., Hiesinger, H., 2014. Evidence for basaltic volcanism on the Moon within the past 100 million years. Nat. Geosci. 7, 787– 791. https://dx.doi.org/10.1038/ngeo2252.

Cahill, J.T.S., Thomson, B.J., Patterson, G.W., Bussey, D.B.J., Neish, C.D., Lopez, N.R., Turner, F.S.,

Aldridge, T., McAdam, M., Meyer, H.M., Raney, R.K., Carter, L.M., Spudis, P.D., Hiesinger, H., Pasckert, J.H., 2014. The Miniature Radio Frequency instrument’s (Mini-RF) global observations of Earth’s Moon. Icarus 243, 173–190. https://dx.doi.org/10.1016/j.icarus.2014.07.018.

*‡Clegg, R.N., Jolliff, B.L., Robinson, M.S., Hapke, B.W., Plescia, J.B., 2014. Effects of rocket exhaust on lunar soil reflectance properties. Icarus 227, 176–194. https://dx.doi.org/10.1016/j.icarus.2013.09.013.

Cook, J.C., Stern, A., 2014. Sporadic increases in lunar atmospheric helium detected by LAMP. Icarus 236, 48–55. https://dx.doi.org/10.1016/j.icarus.2014.02.001.

*‡Daubar, I.J., Atwood-Stone, C., Byrne, S., McEwen, A.S., Russell, P.S., 2014. The morphology of small fresh craters on Mars and the Moon: Fresh Crater d/D on Mars and the Moon. J. Geophys. Res. Plan- ets 119, 2620–2639. https://dx.doi.org/10.1002/2014JE004671.

Denevi, B.W., Robinson, M.S., Boyd, A.K., Sato, H., Hapke, B.W., Hawke, B.R., 2014. Character- ization of space weathering from Lunar Reconnaissance Orbiter Camera ultraviolet observations of the Moon: Space weathering from LROC UV. J. Geophys. Res. Planets 119, 976–997. https://dx.doi.org/10.1002/2013JE004527.

Feldman, P.D., Glenar, D.A., Stubbs, T.J., Retherford, K.D., Gladstone, G., Miles, P.F., Greathouse,

T.K., Kaufmann, D.E., Parker, J.W., Alan Stern, S., 2014. Upper limits for a lunar dust exosphere from far-ultraviolet spectroscopy by LRO/LAMP. Icarus 233, 106–113. https://dx.doi.org/10.1016/j. icarus.2014.01.039.

Ghent, R.R., Hayne, P.O., Bandfield, J.L., Campbell, B.A., Allen, C.C., Carter, L.M., Paige, D.A., 2014. Constraints on the recent rate of lunar ejecta breakdown and implications for crater ages. Geology 42, 1059–1062. https://dx.doi.org/10.1130/G35926.1.

‡Gläser, P., Scholten, F., De Rosa, D., Marco Figuera, R., Oberst, J., Mazarico, E., Neumann, G.A., Robinson, M.S., 2014. Illumination conditions at the lunar south pole using high resolution Digital Terrain Models from LOLA. Icarus 243, 78–90. https://dx.doi.org/10.1016/j.icarus.2014.08.013.

‡Jordan, A.P., Stubbs, T.J., Wilson, J.K., Schwadron, N.A., Spence, H.E., Joyce, C.J., 2014. Deep dielec- tric charging of regolith within the Moon’s permanently shadowed regions. J. Geophys. Res. Planets 119, 1806–1821. https://dx.doi.org/10.1002/2014JE004648.

*‡Joyce, C.J., Schwadron, N.A., Wilson, J.K., Spence, H.E., Kasper, J.C., Golightly, M., Blake, J.B., Townsend, L.W., Case, A.W., Semones, E., Smith, S., Zeitlin, C.J., 2014. Radiation modeling in the Earth and Mars atmospheres using LRO/CRaTER with the EMMREM Module. Space Weather 12, 112–119. https://dx.doi.org/10.1002/2013SW000997.

Lucey, P.G., Neumann, G.A., Riner, M.A., Mazarico, E., Smith, D.E., Zuber, M.T., Paige, D.A., Bussey, D.B., Cahill, J.T., McGovern, A., Isaacson, P., Corley, L.M., Torrence, M.H., Melosh, H.J., Head, J.W., Song, E., 2014. The global albedo of the Moon at 1064 nm from LOLA. J. Geophys. Res. Planets 119, 1665–1679. https://dx.doi.org/10.1002/2013JE004592.

‡Mahanti, P., Robinson, M.S., Humm, D.C., Stopar, J.D., 2014. A standardized approach for quanti- tative characterization of impact crater topography. Icarus 241, 114–129. https://dx.doi.org/10.1016/j. icarus.2014.06.023.

Mazarico, E., Barker, M.K., Neumann, G.A., Zuber, M.T., Smith, D.E., 2014. Detection of the lunar body tide by the Lunar Orbiter Laser Altimeter. Geophys. Res. Lett. 41, 2282–2288. https://dx.doi.org/10.1002/2013GL059085.

Plescia, J.B., Spudis, P.D., 2014. Impact melt flows at Lowell crater. Planet. Space Sci. 103, 219–227. https://dx.doi.org/10.1016/j.pss.2014.08.003.

Porter, J.A., Townsend, L.W., Spence, H., Golightly, M., Schwadron, N., Kasper, J., Case, A.W., Blake, J.B., Zeitlin, C., 2014. Radiation environment at the Moon: Comparisons of transport code model- ing and measurements from the CRaTER instrument. Space Weather 12, 329–336. https://dx.doi.org/10.1002/2013SW000994.

Sato, H., Robinson, M.S., Hapke, B., Denevi, B.W., Boyd, A.K., 2014. Resolved Hapke parameter maps of the Moon. J. Geophys. Res. Planets 119, 1775–1805. https://dx.doi.org/10.1002/2013JE004580.

Schwadron, N.A., Blake, J.B., Case, A.W., Joyce, C.J., Kasper, J., Mazur, J., Petro, N., Quinn, M., Porter, J.A., Smith, C.W., Smith, S., Spence, H.E., Townsend, L.W., Turner, R., Wilson, J.K., Zeitlin, C., 2014. Does the worsening galactic cosmic radiation environment observed by CRa- TER preclude future manned deep space exploration? Space Weather 12, 622–632. https://dx.doi.org/10.1002/2014SW001084.

‡Siegler, M.A., Smrekar, S.E., 2014. Lunar heat flow: Regional prospective of the Apollo landing sites. J. Geophys. Res. Planets 119, 47–63. https://dx.doi.org/10.1002/2013JE004453.

‡Speyerer, E.J., Wagner, R.V., Robinson, M.S., Licht, A., Thomas, P.C., Becker, K., Anderson, J., Brylow, S.M., Humm, D.C., Tschimmel, M., 2014. Pre-flight and On-orbit Geometric Calibration of the Lunar Reconnaissance Orbiter Camera. Space Sci. Rev. https://dx.doi.org/10.1007/s11214-014-0073-3.

*‡Stopar, J.D., Hawke, B.R., Robinson, M.S., Denevi, B.W., Giguere, T.A., Koeber, S.D., 2014. Occur- rence and mechanisms of impact melt emplacement at small lunar craters. Icarus 243, 337–357. https://dx.doi.org/10.1016/j.icarus.2014.08.011.

*‡Vaughan, W.M., Head, J.W., 2014. Impact melt differentiation in the South Pole-Aitken basin: Some ob- servations and speculations. Planet. Space Sci. 91, 101–106. https://dx.doi.org/10.1016/j.pss.2013.11.010.

‡Wagner, R.V., Robinson, M.S., 2014. Distribution, formation mechanisms, and significance of lunar pits. Icarus 237, 52–60. https://dx.doi.org/10.1016/j.icarus.2014.04.002.


2013

*‡Baker, D.M.H., Head, J.W., 2013. New morphometric measurements of craters and basins on Mercury and the Moon from MESSENGER and LRO altimetry and image data: An observational frame- work for evaluating models of peak-ring basin formation. Planet. Space Sci. 86, 91–116. https://dx.doi.org/10.1016/j.pss.2013.07.003.

*‡Braden, S.E., Robinson, M.S., 2013. Relative rates of optical maturation of regolith on Mercury and the Moon. J. Geophys. Res. Planets 118, 1903–1914. https://dx.doi.org/10.1002/jgre.20143.

Case, A.W., Kasper, J.C., Spence, H.E., Zeitlin, C.J., Looper, M.D., Golightly, M.J., Schwadron, N.A., Townsend, L.W., Mazur, J.E., Blake, J.B., Iwata, Y., 2013. The deep space galactic cosmic ray lineal energy spectrum at solar minimum. Space Weather 11, 361–368. https://dx.doi.org/10.1002/swe.20051.

Cook, J.C., Stern, S.A., Feldman, P.D., Gladstone, G.R., Retherford, K.D., Tsang, C.C.C., 2013. New upper limits on numerous atmospheric species in the native lunar atmosphere. Icarus 225, 681–687. https://dx.doi.org/10.1016/j.icarus.2013.04.010.

‡Gläser, P., Haase, I., Oberst, J., Neumann, G.A., 2013. Co-registration of laser altimeter tracks with digital terrain models and applications in planetary science. Planet. Space Sci. 89, 111–117. https://dx.doi.org/10.1016/j.pss.2013.09.012.

*‡Hurwitz, D.M., Head, J.W., Hiesinger, H., 2013. Lunar sinuous rilles: Distribution, characteris- tics, and implications for their origin. Planet. Space Sci. 79-80, 1–38. https://dx.doi.org/10.1016/j. pss.2012.10.019.

‡Jordan, A.P., Stubbs, T.J., Joyce, C.J., Schwadron, N.A., Spence, H.E., Wilson, J.K., 2013. The forma- tion of molecular hydrogen from water ice in the lunar regolith by energetic charged particles. J. Geophys. Res. Planets 118, 1257–1264. https://dx.doi.org/10.1002/jgre.20095.

*‡Joyce, C.J., Schwadron, N.A., Wilson, J.K., Spence, H.E., Kasper, J.C., Golightly, M., Blake, J.B., Mazur, J., Townsend, L.W., Case, A.W., Semones, E., Smith, S., Zeitlin, C.J., 2013. Validation of PRE- DICCS using LRO/CRaTER observations during three major solar events in 2012. Space Weather 11, 350–360. https://dx.doi.org/10.1002/swe.20059.

Lawrence, S.J., Stopar, J.D., Hawke, B.R., Greenhagen, B.T., Cahill, J.T.S., Bandfield, J.L., Jolliff, B.L., Denevi, B.W., Robinson, M.S., Glotch, T.D., Bussey, D.B.J., Spudis, P.D., Giguere, T.A., Garry, W.B., 2013. LRO observations of morphology and surface roughness of volcanic cones and lobate lava flows in the Marius Hills. J. Geophys. Res. Planets 118, 615–634. https://dx.doi.org/10.1002/jgre.20060.

Looper, M.D., Mazur, J.E., Blake, J.B., Spence, H.E., Schwadron, N.A., Golightly, M.J., Case, A.W., Kasper, J.C., Townsend, L.W., 2013. The radiation environment near the lunar surface: CRaTER ob- servations and Geant4 simulations. Space Weather 11, 142–152. https://dx.doi.org/10.1002/swe.20034.

‡Mahanti, P., Robinson, M.S., 2013. Visualization of probabilistic relationships in shape-maturity data for lunar craters, in: Wong, P.C., Kao, D.L., Hao, M.C., Chen, C. (Eds.), Proc. SPIE 9017,

Visualization and Data Analysis 2014, 90170W (December 23, 2013). p. 90170W. https://dx.doi.org/10.1117/12.2042618.

Schwadron, N.A., Smith, S., Spence, H.E., 2013. The CRaTER Special Issue of Space Weather: Building the observational foundation to deduce biological effects of space radiation. Space Weather 11, 47–48. https://dx.doi.org/10.1002/swe.20026.

Schwadron, N., Bancroft, C., Bloser, P., Legere, J., Ryan, J., Smith, S., Spence, H., Mazur, J., Zeitlin, C., 2013. Dose spectra from energetic particles and neutrons: DoSEN. Space Weather 11, 547–556. https://dx.doi.org/10.1002/swe.20095.

*‡Song, E., Bandfield, J.L., Lucey, P.G., Greenhagen, B.T., Paige, D.A., 2013. Bulk mineralogy of lu- nar crater central peaks via thermal infrared spectra from the Diviner Lunar Radiometer: A study of the Moon’s crustal composition at depth. J. Geophys. Res. Planets 118, 689–707. https://dx.doi.org/10.1002/jgre.20065.

Spence, H.E., Golightly, M.J., Joyce, C.J., Looper, M.D., Schwadron, N.A., Smith, S.S., Townsend, L.W., Wilson, J., Zeitlin, C., 2013. Relative contributions of galactic cosmic rays and lunar proton “albedo” to dose and dose rates near the Moon. Space Weather 11, 643–650. https://dx.doi.org/10.1002/2013SW000995.

‡Speyerer, E.J., Robinson, M.S., 2013. Persistently illuminated regions at the lunar poles: Ideal sites for future exploration. Icarus 222, 122–136. https://dx.doi.org/10.1016/j.icarus.2012.10.010.

Spudis, P.D., Bussey, D.B.J., Baloga, S.M., Cahill, J.T.S., Glaze, L.S., Patterson, G.W., Raney, R.K., Thompson, T.W., Thomson, B.J., Ustinov, E.A., 2013. Evidence for water ice on the Moon: Results for anomalous polar craters from the LRO Mini-RF imaging radar. J. Geophys. Res. Planets 118, 2016–2029. https://dx.doi.org/10.1002/jgre.20156.

Stern, S.A., Cook, J.C., Chaufray, J.-Y., Feldman, P.D., Gladstone, G.R., Retherford, K.D., 2013. Lunar atmospheric H2 detections by the LAMP UV spectrograph on the Lunar Reconnaissance Orbiter. Icarus 226, 1210–1213. https://dx.doi.org/10.1016/j.icarus.2013.07.011.

*‡Whitten, J.L., Head, J.W., 2013. Detecting volcanic resurfacing of heavily cratered terrain: Flooding simulations on the Moon using Lunar Orbiter Laser Altimeter (LOLA) data. Planet. Space Sci. 85, 24–37. https://dx.doi.org/10.1016/j.pss.2013.05.013.

*‡Williams, N.R., Watters, T.R., Pritchard, M.E., Banks, M.E., Bell, J.F., 2013. Fault dislocation mod- eled structure of lobate scarps from Lunar Reconnaissance Orbiter Camera digital terrain models: Lobate Scarp Modeling with LROC DTMs. J. Geophys. Res. Planets 118, 224–233. https://dx.doi.org/10.1002/jgre.20051.

Zeitlin, C., Case, A.W., Spence, H.E., Schwadron, N.A., Golightly, M., Wilson, J.K., Kasper, J.C., Blake, J.B., Looper, M.D., Mazur, J.E., Townsend, L.W., Iwata, Y., 2013. Measurements of galactic cosmic ray shielding with the CRaTER instrument. Space Weather 11, 284–296. https://dx.doi.org/10.1002/ swe.20043.


2012

Allen, C.C., Greenhagen, B.T., Donaldson Hanna, K.L., Paige, D.A., 2012. Analysis of lunar pyroclas- tic deposit FeO abundances by LRO Diviner. J. Geophys. Res. Planets 117, E00H28. https://dx.doi.org/10.1029/2011JE003982.

‡Ashley, J.W., Robinson, M.S., Hawke, B.R., van der Bogert, C.H., Hiesinger, H., Sato, H., Speyerer, E.J., Enns, A.C., Wagner, R.V., Young, K.E., Burns, K.N., 2012. Geology of the King crater region: New insights into impact melt dynamics on the Moon. J. Geophys. Res. Planets 117, E00H29. https://dx.doi.org/10.1029/2011JE003990.

*‡Baker, D.M.H., Head, J.W., Neumann, G.A., Smith, D.E., Zuber, M.T., 2012. The transition from complex craters to multi-ring basins on the Moon: Quantitative geometric properties from Lunar Reconnaissance Orbiter Lunar Orbiter Laser Altimeter (LOLA) data. J. Geophys. Res. Planets 117, E00H16. https://dx.doi.org/10.1029/2011JE004021.

‡Banks, M.E., Watters, T.R., Robinson, M.S., Tornabene, L.L., Tran, T., Ojha, L., Williams, N.R., 2012. Morphometric analysis of small-scale lobate scarps on the Moon using data from the Lunar Re- connaissance Orbiter. J. Geophys. Res. Planets 117, E00H11. https://dx.doi.org/10.1029/2011JE003907.

*‡Bell, S.W., Thomson, B.J., Dyar, M.D., Neish, C.D., Cahill, J.T.S., Bussey, D.B.J., 2012. Dating small fresh lunar craters with Mini-RF radar observations of ejecta blankets. J. Geophys. Res. Planets 117, E00H30. https://dx.doi.org/10.1029/2011JE004007.

Boynton, W.V., Droege, G.F., Mitrofanov, I.G., McClanahan, T.P., Sanin, A.B., Litvak, M.L., Schaff- ner, M., Chin, G., Evans, L.G., Garvin, J.B., Harshman, K., Malakhov, A., Milikh, G., Sagdeev, R., Starr, R., 2012. High spatial resolution studies of epithermal neutron emission from the lu- nar poles: Constraints on hydrogen mobility. J. Geophys. Res. Planets 117, E00H33. https://dx.doi.org/10.1029/2011JE003979.

‡Bray, V.J., Atwood-Stone, C., McEwen, A.M., 2012. Investigating the transition from central peak to peak-ring basins using central feature volume measurements from the Global Lunar DTM 100 m. Geophys. Res. Lett. 39, L21201. https://dx.doi.org/10.1029/2012GL053693.

‡Burns, K.N., Speyerer, E.J., Robinson, M.S., Tran, T., Rosiek, M.R., Archinal, B.A., Howington-Kraus, E., the LROC Science Team, 2012. Digital elevation modesl and derived products from LROC NAC stereo observations. ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XXXIX-B4, 483–488. https://dx.doi.org/10.5194/isprsarchives-XXXIX- B4-483-2012.

Carter, L.M., Neish, C.D., Bussey, D.B.J., Spudis, P.D., Patterson, G.W., Cahill, J.T., Raney, R.K., 2012. Initial observations of lunar impact melts and ejecta flows with the Mini-RF radar. J. Geophys. Res. Planets 117, E00H09. https://dx.doi.org/10.1029/2011JE003911.

*‡Clegg, R.N., Jolliff, B.L., Metzger, P.T., 2012. Photometric Analysis of the Apollo Landing Sites, in: Earth and Space 2012, Paper Presented at the Thirteenth ASCE Aerospace Division Confer- ence on Engineering, Science, Construction, and Operations in Challenging Environments, and the 5th NASA/ASCE Workshop On Granular Materials in Space Exploration, 15-18 April 2012, Pas- adena, California, United States. American Society of Civil Engineers, pp. 218–227. https://dx.doi.org/10.1061/9780784412190.025.

‡Denevi, B.W., Koeber, S.D., Robinson, M.S., Garry, W.B., Hawke, B.R., Tran, T.N., Lawrence, S.J., Keszthelyi, L.P., Barnouin, O.S., Ernst, C.M., Tornabene, L.L., 2012. Physical constraints on im- pact melt properties from Lunar Reconnaissance Orbiter Camera images. Icarus 219, 665–675. https://dx.doi.org/10.1016/j.icarus.2012.03.020.

*‡Donaldson Hanna, K.L., Wyatt, M.B., Thomas, I.R., Bowles, N.E., Greenhagen, B.T., Maturilli, A., Helbert, J., Paige, D.A., 2012. Thermal infrared emissivity measurements under a simulated lunar environment: Application to the Diviner Lunar Radiometer Experiment. J. Geophys. Res. Planets 117, n/a–n/a. https://dx.doi.org/10.1029/2011JE003862.

‡Fassett, C.I., Head, J.W., Kadish, S.J., Mazarico, E., Neumann, G.A., Smith, D.E., Zuber, M.T., 2012. Lunar impact basins: Stratigraphy, sequence and ages from superposed impact crater populations mea- sured from Lunar Orbiter Laser Altimeter (LOLA) data. J. Geophys. Res. Planets 117, E00H06. https://dx.doi.org/10.1029/2011JE003951.

Feldman, P.D., Hurley, D.M., Retherford, K.D., Gladstone, G.R., Stern, S.A., Pryor, W., Parker, J.W., Kaufmann, D.E., Davis, M.W., Versteeg, M.H., 2012. Temporal variability of lunar exospheric he- lium during January 2012 from LRO/LAMP. Icarus 221, 854–858. https://dx.doi.org/10.1016/j.ica- rus.2012.09.015.

Garry, W.B., Robinson, M.S., Zimbelman, J.R., Bleacher, J.E., Hawke, B.R., Crumpler, L.S., Braden, S.E., Sato, H., 2012. The origin of Ina: Evidence for inflated lava flows on the Moon. J. Geophys. Res. Planets 117, E00H31. https://dx.doi.org/10.1029/2011JE003981.

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Hapke, B., Denevi, B., Sato, H., Braden, S., Robinson, M., 2012. The wavelength dependence of the lunar phase curve as seen by the Lunar Reconnaissance Orbiter wide-angle camera. J. Geophys. Res. Planets 117, E00H15. https://dx.doi.org/10.1029/2011JE003916.

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Plescia, J.B., Cintala, M.J., 2012. Impact melt in small lunar highland craters. J. Geophys. Res. Planets 117, E00H12. https://dx.doi.org/10.1029/2011JE003941.

Raney, R.K., Cahill, J.T.S., Patterson, G.W., Bussey, D.B.J., 2012. The m-chi decomposition of hybrid dual-polarimetric radar data with application to lunar craters. J. Geophys. Res. Planets 117, E00H21. https://dx.doi.org/10.1029/2011JE003986.

Robinson, M.S., Ashley, J.W., Boyd, A.K., Wagner, R.V., Speyerer, E.J., Hawke, B.R., Hiesinger, H., van der Bogert, C.H., 2012a. Confirmation of sublunarean voids and thin layering in mare deposits. Planet. Space Sci. 69, 18–27. https://dx.doi.org/10.1016/j.pss.2012.05.008.

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2011

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Simpson, J., Badgley, J., McCaughey, K., Brown, K., Calhoun, P., Davis, E., Garrick, J., Gill, N., Hsu, O., Jones, N., others, 2011. Integration and Testing of the Lunar Reconnaissance Orbiter Attitude Control System, in: Aerospace Conference, 2011 IEEE, IEEE Aerospace Conference Proceedings. IEEE, pp. 1–11.

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2010

Anderson, J.A., Charara, Y.M., Townsend, L.W., 2010. Linear Energy Transfer estimates for the CRaTER instrument on LRO, in: Aerospace Conference, 2010 IEEE, IEEE Aerospace Conference Proceedings. Presented at the 6-13 March 2010, IEEE, p. 10 pp. https://dx.doi.org/10.1109/AERO.2010.5447004.

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Head, J.W., Fassett, C.I., Kadish, S.J., Smith, D.E., Zuber, M.T., Neumann, G.A., Mazarico, E., 2010. Global distribution of large lunar craters: Implications for resurfacing and impactor populations. science 329, 1504–1507. https://dx.doi.org/10.1126/science.1195050.

Mazarico, E., Lemoine, F.G., Han, S.-C., Smith, D.E., 2010. GLGM-3: A degree-150 lunar gravity model from the historical tracking data of NASA Moon orbiters. J. Geophys. Res. 115, E05001. https://dx.doi.org/10.1029/2009JE003472.

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McClanahan, T.P., Ivatury, V., Milikh, G., Nandikotkur, G., Puetter, R.C., Sagdeev, R.Z., Usikov, D., Mitrofanov, I.G., 2010. Comparison of image restoration methods for lunar epithermal neutron emis- sion mapping. Comput. Geosci. 36, 1484–1493. https://dx.doi.org/10.1016/j.cageo.2009.11.011.

Mitrofanov, I.G., Bartels, A., Bobrovnitsky, Y.I., Boynton, W., Chin, G., Enos, H., Evans, L., Floyd, S., Garvin, J., Golovin, D.V., Grebennikov, A.S., Harshman, K., Kazakov, L.L., Keller, J., Konovalov, A.A., Kozyrev, A.S., Krylov, A.R., Litvak, M.L., Malakhov, A.V., McClanahan, T., Milikh, G.M., Mokrousov, M.I., Ponomareva, S., Sagdeev, R.Z., Sanin, A.B., Shevchenko, V.V., Shvetsov, V.N., Starr, R., Timoshenko, G.N., Tomilina, T.M., Tretyakov, V.I., Trombka, J., Troshin, V.S., Uvarov, V.N., Varennikov, A.B., Vostrukhin, A.A., 2010a. Lunar Exploration Neutron Detector for the NASA Lunar Reconnaissance Orbiter. Space Sci. Rev. 150, 183–207. https://dx.doi.org/10.1007/s11214-009-9608-4.

Mitrofanov, I.G., Sanin, A.B., Boynton, W.V., Chin, G., Garvin, J.B., Golovin, D., Evans, L.G., Harsh- man, K., Kozyrev, A.S., Litvak, M.L., Malakhov, A., Mazarico, E., McClanahan, T., Milikh, G., Mokrousov, M., Nandikotkur, G., Neumann, G.A., Nuzhdin, I., Sagdeev, R., Shevchenko, V., Sh- vetsov, V., Smith, D.E., Starr, R., Tretyakov, V.I., Trombka, J., Usikov, D., Varenikov, A., Vostrukhin, A., Zuber, M.T., 2010b. Hydrogen Mapping of the Lunar South Pole Using the LRO Neutron Detec- tor Experiment LEND. Science 330, 483–486. https://dx.doi.org/10.1126/science.1185696.

Nozette, S., Spudis, P., Bussey, B., Jensen, R., Raney, K., Winters, H., Lichtenberg, C.L., Marinelli, W., Crusan, J., Gates, M., Robinson, M., 2010. The Lunar Reconnaissance Orbiter Miniature Ra- dio Frequency (Mini-RF) Technology Demonstration. Space Sci. Rev. 150, 285–302. https://dx.doi.org/10.1007/s11214-009-9607-5.

Paige, D.A., Foote, M.C., Greenhagen, B.T., Schofield, J.T., Calcutt, S., Vasavada, A.R., Preston, D.J., Taylor, F.W., Allen, C.C., Snook, K.J., Jakosky, B.M., Murray, B.C., Soderblom, L.A., Jau, B., Loring, S., Bulharowski, J., Bowles, N.E., Thomas, I.R., Sullivan, M.T., Avis, C., De Jong, E.M., Hartford, W., McCleese, D.J., 2010a. The Lunar Reconnaissance Orbiter Diviner Lunar Radiometer Experiment. Space Sci. Rev. 150, 125–160. https://dx.doi.org/10.1007/s11214-009-9529-2.

Paige, D.A., Siegler, M.A., Zhang, J.A., Hayne, P.O., Foote, E.J., Bennett, K.A., Vasavada, A.R., Greenhagen, B.T., Schofield, J.T., McCleese, D.J., Foote, M.C., DeJong, E., Bills, B.G., Hartford, W., Murray, B.C., Allen, C.C., Snook, K., Soderblom, L.A., Calcutt, S., Taylor, F.W., Bowles, N.E., Bandfield, J.L., Elphic, R., Ghent, R., Glotch, T.D., Wyatt, M.B., Lucey, P.G., 2010b. Diviner Lunar Radiometer Observations of Cold Traps in the Moon’s South Polar Region. Science 330, 479–482. https://dx.doi.org/10.1126/science.1187726.

Robinson, M.S., Brylow, S.M., Tschimmel, M., Humm, D., Lawrence, S.J., Thomas, P.C., Denevi, B.W., Bowman-Cisneros, E., Zerr, J., Ravine, M.A., Caplinger, M.A., Ghaemi, F.T., Schaffner, J.A., Malin, M.C., Mahanti, P., Bartels, A., Anderson, J., Tran, T.N., Eliason, E.M., McEwen, A.S., Turtle, E., Jol- liff, B.L., Hiesinger, H., 2010. Lunar Reconnaissance Orbiter Camera (LROC) Instrument Overview. Space Sci. Rev. 150, 81–124. https://dx.doi.org/10.1007/s11214-010-9634-2.

Schwadron, N.A., Boyd, A.J., Kozarev, K., Golightly, M., Spence, H., Townsend, L.W., Owens, M., 2010. Galactic cosmic ray radiation hazard in the unusual extended solar minimum between solar cycles 23 and 24. Space Weather 8, S00E04. https://dx.doi.org/10.1029/2010SW000567.

Smith, D.E., Zuber, M.T., Jackson, G.B., Cavanaugh, J.F., Neumann, G.A., Riris, H., Sun, X., Zellar, R.S., Coltharp, C., Connelly, J., Katz, R.B., Kleyner, I., Liiva, P., Matuszeski, A., Mazarico, E.M., McGarry, J.F., Novo-Gradac, A.-M., Ott, M.N., Peters, C., Ramos-Izquierdo, L.A., Ramsey, L., Rowlands, D.D., Schmidt, S., Scott, V.S., Shaw, G.B., Smith, J.C., Swinski, J.-P., Torrence, M.H., Unger, G., Yu, A.W., Zagwodzki, T.W., 2010a. The Lunar Orbiter Laser Altimeter Investigation on the Lunar Reconnaissance Orbiter Mission. Space Sci. Rev. 150, 209–241. https://dx.doi.org/10.1007/s11214-009- 9512-y.

Smith, D.E., Zuber, M.T., Neumann, G.A., Lemoine, F.G., Mazarico, E., Torrence, M.H., McGarry, J.F., Rowlands, D.D., Head, J.W., Duxbury, T.H., Aharonson, O., Lucey, P.G., Robinson, M.S., Bar- >nouin, O.S., Cavanaugh, J.F., Sun, X., Liiva, P., Mao, D., Smith, J.C., Bartels, A.E., 2010b. Initial observations from the Lunar Orbiter Laser Altimeter (LOLA). Geophys. Res. Lett. 37, L18204. https://dx.doi.org/10.1029/2010GL043751.

Spence, H.E., Case, A.W., Golightly, M.J., Heine, T., Larsen, B.A., Blake, J.B., Caranza, P., Crain, W.R., George, J., Lalic, M., Lin, A., Looper, M.D., Mazur, J.E., Salvaggio, D., Kasper, J.C., Stubbs, T.J., Doucette, M., Ford, P., Foster, R., Goeke, R., Gordon, D., Klatt, B., O’Connor, J., Smith, M., On- sager, T., Zeitlin, C., Townsend, L.W., Charara, Y., 2010. CRaTER: The Cosmic Ray Telescope for the Effects of Radiation Experiment on the Lunar Reconnaissance Orbiter Mission. Space Sci. Rev. 150, 243–284. https://dx.doi.org/10.1007/s11214-009-9584-8.

Tooley, C.R., Houghton, M.B., Saylor, R.S., Peddie, C., Everett, D.F., Baker, C.L., Safdie, K.N., 2010. Lunar Reconnaissance Orbiter Mission and Spacecraft Design. Space Sci. Rev. 150, 23–62. https://dx.doi.org/10.1007/s11214-009-9624-4.

Townsend, L.W., Charara, Y.M., Delauder, N., PourArsalan, M., Anderson, J.A., Fisher, C.M., Spence, H.E., Schwadron, N.A., Golightly, M.J., Cucinotta, F.A., 2010. Parameterizations of the linear energy transfer spectrum for the CRaTER instrument during the LRO mission. Space Weather 8, n/a–n/a. https://dx.doi.org/10.1029/2009SW000526.

Townsend, L.W., Moussa, H.M., Charara, Y.M., 2010. Monte Carlo simulations of energy losses by space protons in the CRaTER detector. Acta Astronaut. 66, 643–647. https://dx.doi.org/10.1016/j.actaas- tro.2009.08.007.

Vondrak, R., Keller, J., Chin, G., Garvin, J., 2010. Lunar Reconnaissance Orbiter (LRO): Observations for Lunar Exploration and Science. Space Sci. Rev. 150, 7–22. https://dx.doi.org/10.1007/s11214-010- 9631-5.

Watters, T.R., Robinson, M.S., Beyer, R.A., Banks, M.E., Bell, J.F., Pritchard, M.E., Hiesinger, H., van der Bogert, C.H., Thomas, P.C., Turtle, E.P., Williams, N.R., 2010. Evidence of Recent Thrust Faulting on the Moon Revealed by the Lunar Reconnaissance Orbiter Camera. Science 329, 936–940. https://dx.doi.org/10.1126/science.1189590.

Zhou, D., Semones, E., Guetersloh, S., Zapp, N., Weyland, M., Benton, E.R., 2010. The experimental and simulated LET spectrum and charge spectrum from CR-39 detectors exposed to irons near CRa- TER at BNL. Radiat. Meas. 45, 916–922. https://dx.doi.org/10.1016/j.radmeas.2010.02.014.

>Zuber, M.T., Smith, D.E., Zellar, R.S., Neumann, G.A., Sun, X., Katz, R.B., Kleyner, I., Matuszeski, A., McGarry, J.F., Ott, M.N., Ramos-Izquierdo, L.A., Rowlands, D.D., Torrence, M.H., Zagwodzki, T.W., 2010. The Lunar Reconnaissance Orbiter Laser Ranging Investigation. Space Sci. Rev. 150, 63–80. https://dx.doi.org/10.1007/s11214-009-9511-z.


2009

Davis, M.W., Slater, D.C., Gladstone, G.R., Stern, S.A., Greathouse, T.K., Retherford, K.D., Versteeg, M.H., Black, R.K., 2009. Radiometric performance results of the Lunar Reconnaissance Orbiter’s Ly- man Alpha Mapping Project (LRO/LAMP) UV imaging spectrograph, in: Hoover, R.B., Levin, G.V., Rozanov, A.Y., Retherford, K.D. (Eds.), Proc. SPIE 7441, Instruments and Methods for Astrobiology and Planetary Missions XII, 744110 (September 10, 2009). https://dx.doi.org/10.1117/12.826068.

Huang, C.-L., Spence, H.E., Kress, B.T., 2009. Assessing access of galactic cosmic rays at Moon’s orbit. Geophys. Res. Lett. 36, L09109. https://dx.doi.org/10.1029/2009GL037916.

*‡Jordan, A.P., Spence, H.E., Blake, J.B., Mulligan, T., Shaul, D.N.A., Galametz, M., 2009. Multipoint, high time resolution galactic cosmic ray observations associated with two interplanetary coronal mass ejections. J. Geophys. Res. 114, A07107. https://dx.doi.org/10.1029/2008JA013891.

Retherford, K.D., Stern, S.A., Slater, D.C., Gladstone, G.R., Davis, M.W., Parker, J.W., Versteeg, M.H., Steffl, A.J., Greathouse, T.K., Cunningham, N.J., 2009. SwRI’s “ALICE” Line of Ultraviolet Spec- trographs, in: Hoover, R.B., Levin, G.V., Rozanov, A.Y., Retherford, K.D. (Eds.), Proc. SPIE 7441, Instruments and Methods for Astrobiology and Planetary Missions XII, 744111 (September 10, 2009). https://dx.doi.org/10.1117/12.826192.

Rowlands, D.D., Lemoine, F.G., Chinn, D.S., Luthcke, S.B., 2009. A simulation study of multi-beam altimetry for lunar reconnaissance orbiter and other planetary missions. J. Geod. 83, 709–721. https://dx.doi.org/10.1007/s00190-008-0285-y.


2008

Case, A.W., Spence, H.E., Owens, M.J., Riley, P., Odstrcil, D., 2008. Ambient solar wind’s effect on ICME transit times. Geophys. Res. Lett. 35, L15105. https://dx.doi.org/10.1029/2008GL034493.

Mitrofanov, I.G., Sanin, A.B., Golovin, D.V., Litvak, M.L., Konovalov, A.A., Kozyrev, A.S., Malakhov, A.V., Mokrousov, M.I., Tretyakov, V.I., Troshin, V.S., Uvarov, V.N., Varenikov, A.B., Vostrukhin, A.A., Shevchenko, V.V., Shvetsov, V.N., Krylov, A.R., Timoshenko, G.N., Bobrovnitsky, Y.I., Tomi- lina, T.M., Grebennikov, A.S., Kazakov, L.L., Sagdeev, R.Z., Milikh, G.N., Bartels, A., Chin, G., Floyd, S., Garvin, J., Keller, J., McClanahan, T., Trombka, J., Boynton, W., Harshman, K., Starr, R., Evans, L., 2008. Experiment LEND of the NASA Lunar Reconnaissance Orbiter for High-Resolution Mapping of Neutron Emission of the Moon. Astrobiology 8, 793–804. https://dx.doi.org/10.1089/ast.2007.0158.


2007

Charara, Y., Townsend, L., Moussa, H., Hatcher, R., Dudney, C., McKee, S., McKinnis, P., Ottinger, K., 2007. Calculated energy loss spectra in the CRaTER detector for selected cosmic ray ions, in: Aerospace Conference, 2007 IEEE, IEEE Aerospace Conference Proceedings. IEEE, p. 12 pp.

Chin, G., Brylow, S., Foote, M., Garvin, J., Kasper, J., Keller, J., Litvak, M., Mitrofanov, I., Paige, D., Raney, K., Robinson, M., Sanin, A., Smith, D., Spence, H., Spudis, P., Stern, S.A., Zuber, M., 2007. Lunar Reconnaissance Orbiter overview: The instrument suite and mission. Space Sci. Rev. 129, 391– 419. https://dx.doi.org/10.1007/s11214-007-9153-y.

Farmer, C., Charara, Y.M., Townsend, L.W., 2007. LET spectra of iron particles on A-150: Model predic- tions for the CRaTER detector, in: SAE International Conference On Environmental Systems. https://dx.doi.org/10.4271/2007-01-3113.

Lee, L.L., Ingegneri, A.J., Li, M., Everett, D.F., 2007. Probabilistic risk assessment: a practical & cost effective approach, in: Reliability and Maintainability Symposium, 2007. RAMS ’07. Annual. IEEE, pp. 147–151.


2006

Townsend, L.W., Moussa, H.M., Charara, Y., 2006. Characterization of the lunar radiation environment using the CRaTER detector, in: Aerospace Conference, 2006 IEEE, IEEE Aerospace Conference Proceedings. IEEE, p. 10 pp.

Goddard Space Flight Center