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1. Results from InSight Robotic Arm Activities

Author

Golombek, M., Hudson, T., Bailey, P., Balabanska, N., Marteau, E., Charalambous, C., Baker, M., Lemmon, M., White, B., Lorenz, R. D., Spohn, T., Maki, J., Kallemeyn, P., Garvin, J. B., Newman, C., Hurst, K., Murdoch, N., Williams, N., Banerdt, W. B., Lognonné, P., Delage, P., Lapeyre, R., Gaudin, E., Yana, C., Verdier, N., Panning, M., Trebi-Ollennu, A., Ali, K., Mittelholz, A., Johnson, C., Langlais, B., Warner, N., Grant, J., Daubar, I. J., Ansan, V., Vrettos, C., Spiga, A., Banfield, D., Gomez, A., Mishra, P., Dotson, R., Krause, C., Sainton, G., and Gabsi, T.

Published
2023
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3. Breakthrough capability for the NASA Astrophysics Explorer Program: Reaching the darkest sky

Author

Greenhouse, M. A., Benson, S. W., Falck, R. D., Fixsen, D. J., Gardner, J. P., Garvin, J. B., Kruk, J. W., Oleson, S. R., and Thronson, H. A.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

We describe a mission architecture designed to substantially increase the science capability of the NASA Science Mission Directorate (SMD) Astrophysics Explorer Program for all AO proposers working within the near-UV to far-infrared spectrum. We have demonstrated that augmentation of Falcon 9 Explorer launch services with a 13 kW Solar Electric Propulsion (SEP) stage can deliver a 700 kg science observatory payload to extra-Zodiacal orbit. This new capability enables up to ~13X increased photometric sensitivity and ~160X increased observing speed relative to a Sun-Earth L2, Earth-trailing, or Earth orbit with no increase in telescope aperture. All enabling SEP stage technologies for this launch service augmentation have reached sufficient readiness (TRL-6) for Explorer Program application in conjunction with the Falcon 9. We demonstrate that enabling Astrophysics Explorers to reach extra-zodiacal orbit will allow this small payload program to rival the science performance of much larger long development time systems; thus, providing a means to realize major science objectives while increasing the SMD Astrophysics portfolio diversity and resiliency to external budget pressure. The SEP technology employed in this study has strong applicability to SMD Planetary Science community-proposed missions. SEP is a stated flight demonstration priority for NASA's Office of the Chief Technologist (OCT). This new mission architecture for astrophysics Explorers enables an attractive realization of joint goals for OCT and SMD with wide applicability across SMD science disciplines., Comment: Submitted to proceedings of the SPIE Astronomical Telescopes and Instrumentation conference, Amsterdam, The Netherlands, July 2012

Published
2012
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4. Ganymede Observations by JunoCam on Juno Perijove 34

Author

Ravine, M. A., primary, Hansen, C. J., additional, Collins, G. C., additional, Schenk, P. M., additional, Caplinger, M. A., additional, Lipkaman Vittling, L., additional, Krysak, D. J., additional, Zimdar, R. P., additional, Garvin, J. B., additional, and Bolton, S. J., additional

Published
2022
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5. Monitoring and Modeling the Rapid Evolution of Earth's Newest Volcanic Island: Hunga Tonga Hunga Ha'apai (Tonga) Using High Spatial Resolution Satellite Observations

Author

Garvin, J. B, Slayback, D. A, Ferrini, V, Frawley, J, Giguere, C, Asrar, G. R, and Andersen, K

Subjects
Earth Resources And Remote Sensing
Abstract

We have monitored a newly erupted volcanic island in the Kingdom of Tonga, unofficially known as Hunga Tonga Hunga Ha'apai, by means of relatively frequent high spatial resolution (~50 cm) satellite observations. The new ~1.8 km 2(exp) island formed as a tuff cone over the course of a month‐long hydromagmatic eruption in early 2015 in the Tonga‐Kermadec volcanic arc. Such ash‐dominated eruptions usually produce fragile subaerial landscapes that wash away rapidly due to marine erosion, as occurred nearby in 2009. Our measured rates of erosion are ~0.00256 km 3(exp) / year from derived digital topographic models. Preliminary measurements of the topographic expression of the primary tuff cone over ~30 months suggest a lifetime of ~19 years (and potentially up to 42 years). The ability to measure details of a young island's landscape evolution using satellite remote sensing has not previously been possible at these spatial and temporal resolutions.

Published
2018
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6. Spacecraft sample collection and subsurface excavation of asteroid (101955) Bennu

Author

Lauretta, D. S., primary, Adam, C. D., additional, Allen, A. J., additional, Ballouz, R.-L., additional, Barnouin, O. S., additional, Becker, K. J., additional, Becker, T., additional, Bennett, C. A., additional, Bierhaus, E. B., additional, Bos, B. J., additional, Burns, R. D., additional, Campins, H., additional, Cho, Y., additional, Christensen, P. R., additional, Church, E. C. A., additional, Clark, B. E., additional, Connolly, H. C., additional, Daly, M. G., additional, DellaGiustina, D. N., additional, Drouet d’Aubigny, C. Y., additional, Emery, J. P., additional, Enos, H. L., additional, Kasper, S. Freund, additional, Garvin, J. B., additional, Getzandanner, K., additional, Golish, D. R., additional, Hamilton, V. E., additional, Hergenrother, C. W., additional, Kaplan, H. H., additional, Keller, L. P., additional, Lessac-Chenen, E. J., additional, Liounis, A. J., additional, Ma, H., additional, McCarthy, L. K., additional, Miller, B. D., additional, Moreau, M. C., additional, Morota, T., additional, Nelson, D. S., additional, Nolau, J. O., additional, Olds, R., additional, Pajola, M., additional, Pelgrift, J. Y., additional, Polit, A. T., additional, Ravine, M. A., additional, Reuter, D. C., additional, Rizk, B., additional, Rozitis, B., additional, Ryan, A. J., additional, Sahr, E. M., additional, Sakatani, N., additional, Seabrook, J. A., additional, Selznick, S. H., additional, Skeen, M. A., additional, Simon, A. A., additional, Sugita, S., additional, Walsh, K. J., additional, Westermann, M. M., additional, Wolner, C. W. V., additional, and Yumoto, K., additional

Published
2022
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7. Exploration of Venus' Deep Atmosphere and Surface Environment

Author

Glaze, L. S, Amato, M, Garvin, J. B, and Johnson, N. M

Subjects
Lunar And Planetary Science And Exploration
Abstract

Venus formed in the same part of our solar system as Earth, apparently from similar materials. Although both planets are about the same size, their differences are profound. Venus and Earth experienced vastly different evolutionary pathways resulting in unexplained differences in atmospheric composition and dynamics, as well as in geophysical processes of the planetary surfaces and interiors. Understanding when and why the evolutionary pathways of Venus and Earth diverged is key to understanding how terrestrial planets form and how their atmospheres and surfaces evolve. Measurements made in situ, within the near-surface or surface environment, are critical to addressing unanswered questions. We have made substantial progress modernizing and maturing pressure vessel technologies to enable science operations in the high temperature and pressure near-surface/surfaceenvironment of Venus.

Published
2017

8. Science Goals and Mission Architecture of the Europa Lander Mission Concept

Author

Hand, K. P., primary, Phillips, C. B., additional, Murray, A., additional, Garvin, J. B., additional, Maize, E. H., additional, Gibbs, R. G., additional, Reeves, G., additional, Martin, A. M. San, additional, Tan-Wang, G. H., additional, Krajewski, J., additional, Hurst, K., additional, Crum, R., additional, Kennedy, B. A., additional, McElrath, T. P., additional, Gallon, J. C., additional, Sabahi, D., additional, Thurman, S. W., additional, Goldstein, B., additional, Estabrook, P., additional, Lee, S. W., additional, Dooley, J. A., additional, Brinckerhoff, W. B., additional, Edgett, K. S., additional, German, C. R., additional, Hoehler, T. M., additional, Hörst, S. M., additional, Lunine, J. I., additional, Paranicas, C., additional, Nealson, K., additional, Smith, D. E., additional, Templeton, A. S., additional, Russell, M. J., additional, Schmidt, B., additional, Christner, B., additional, Ehlmann, B., additional, Hayes, A., additional, Rhoden, A., additional, Willis, P., additional, Yingst, R. A., additional, Craft, K., additional, Cameron, M. E., additional, Nordheim, T., additional, Pitesky, J., additional, Scully, J., additional, Hofgartner, J., additional, Sell, S. W., additional, Barltrop, K. J., additional, Izraelevitz, J., additional, Brandon, E. J., additional, Seong, J., additional, Jones, J.-P., additional, Pasalic, J., additional, Billings, K. J., additional, Ruiz, J. P., additional, Bugga, R. V., additional, Graham, D., additional, Arenas, L. A., additional, Takeyama, D., additional, Drummond, M., additional, Aghazarian, H., additional, Andersen, A. J., additional, Andersen, K. B., additional, Anderson, E. W., additional, Babuscia, A., additional, Backes, P. G., additional, Bailey, E. S., additional, Balentine, D., additional, Ballard, C. G., additional, Berisford, D. F., additional, Bhandari, P., additional, Blackwood, K., additional, Bolotin, G. S., additional, Bovre, E. A., additional, Bowkett, J., additional, Boykins, K. T., additional, Bramble, M. S., additional, Brice, T. M., additional, Briggs, P., additional, Brinkman, A. P., additional, Brooks, S. M., additional, Buffington, B. B., additional, Burns, B., additional, Cable, M. L., additional, Campagnola, S., additional, Cangahuala, L. A., additional, Carr, G. A, additional, Casani, J. R., additional, Chahat, N. E., additional, Chamberlain-Simon, B. K., additional, Cheng, Y., additional, Chien, S. A., additional, Cook, B. T., additional, Cooper, M., additional, DiNicola, M., additional, Clement, B., additional, Dean, Z., additional, Cullimore, E. A., additional, Curtis, A. G., additional, Croix, J-P. de la, additional, Pasquale, P. Di, additional, Dodd, E. M., additional, Dubord, L. A., additional, Edlund, J. A., additional, Ellyin, R., additional, Emanuel, B., additional, Foster, J. T., additional, Ganino, A. J., additional, Garner, G. J., additional, Gibson, M. T., additional, Gildner, M., additional, Glazebrook, K. J., additional, Greco, M. E., additional, Green, W. M., additional, Hatch, S. J., additional, Hetzel, M. M., additional, Hoey, W. A., additional, Hofmann, A. E., additional, Ionasescu, R., additional, Jain, A., additional, Jasper, J. D., additional, Johannesen, J. R., additional, Johnson, G. K., additional, Jun, I., additional, Katake, A. B., additional, Kim-Castet, S. Y., additional, Kim, D. I., additional, Kim, W., additional, Klonicki, E. F., additional, Kobeissi, B., additional, Kobie, B. D., additional, Kochocki, J., additional, Kokorowski, M., additional, Kosberg, J. A., additional, Kriechbaum, K., additional, Kulkarni, T. P., additional, Lam, R. L., additional, Landau, D. F., additional, Lattimore, M. A., additional, Laubach, S. L., additional, Lawler, C. R., additional, Lim, G., additional, Lin, J. Y, additional, Litwin, T. E., additional, Lo, M. W., additional, Logan, C. A., additional, Maghasoudi, E., additional, Mandrake, L., additional, Marchetti, Y., additional, Marteau, E., additional, Maxwell, K. A., additional, Namee, J. B. Mc, additional, Mcintyre, O., additional, Meacham, M., additional, Melko, J. P., additional, Mueller, J., additional, Muliere, D. A., additional, Mysore, A., additional, Nash, J., additional, Ono, H., additional, Parker, J. M., additional, Perkins, R. C., additional, Petropoulos, A. E, additional, Gaut, A., additional, Gomez, M. Y. Piette, additional, Casillas, R. P., additional, Preudhomme, M., additional, Pyrzak, G., additional, Rapinchuk, J., additional, Ratliff, J. M., additional, Ray, T. L., additional, Roberts, E. T., additional, Roffo, K., additional, Roth, D. C., additional, Russino, J. A., additional, Schmidt, T. M., additional, Schoppers, M. J., additional, Senent, J. S., additional, Serricchio, F., additional, Sheldon, D. J., additional, Shiraishi, L. R., additional, Shirvanian, J., additional, Siegel, K. J., additional, Singh, G., additional, Sirota, A. R., additional, Skulsky, E. D., additional, Stehly, J. S., additional, Strange, N. J., additional, Stevens, S. U., additional, Sunada, E. T., additional, Tepsuporn, S. P., additional, Tosi, L. P. C., additional, Trawny, N., additional, Uchenik, I., additional, Verma, V., additional, Volpe, R. A., additional, Wagner, C. T., additional, Wang, D., additional, Willson, R. G., additional, Wolff, J. L., additional, Wong, A. T., additional, Zimmer, A. K., additional, Sukhatme, K. G., additional, Bago, K. A., additional, Chen, Y., additional, Deardorff, A. M., additional, Kuch, R. S., additional, Lim, C., additional, Syvertson, M. L., additional, Arakaki, G. A., additional, Avila, A., additional, DeBruin, K. J., additional, Frick, A., additional, Harris, J. R., additional, Heverly, M. C., additional, Kawata, J. M., additional, Kim, S.-K., additional, Kipp, D. M., additional, Murphy, J., additional, Smith, M. W., additional, Spaulding, M. D., additional, Thakker, R., additional, Warner, N. Z., additional, Yahnker, C. R., additional, Young, M. E., additional, Magner, T., additional, Adams, D., additional, Bedini, P., additional, Mehr, L., additional, Sheldon, C., additional, Vernon, S., additional, Bailey, V., additional, Briere, M., additional, Butler, M., additional, Davis, A., additional, Ensor, S., additional, Gannon, M., additional, Haapala-Chalk, A., additional, Hartka, T., additional, Holdridge, M., additional, Hong, A., additional, Hunt, J., additional, Iskow, J., additional, Kahler, F., additional, Murray, K., additional, Napolillo, D., additional, Norkus, M., additional, Pfisterer, R., additional, Porter, J., additional, Roth, D., additional, Schwartz, P., additional, Wolfarth, L., additional, Cardiff, E. H., additional, Grob, E. W., additional, Adam, J. R., additional, Betts, E., additional, Norwood, J., additional, Heller, M. M., additional, Voskuilen, T., additional, Sakievich, P., additional, Gray, L., additional, Hansen, D. J., additional, Irick, K. W., additional, Hewson, J. C., additional, Lamb, J., additional, Stacy, S. C., additional, Brotherton, C. M., additional, Tappan, A. S, additional, Benally, D., additional, Thigpen, H., additional, Ortiz, E., additional, Sandoval, D., additional, Ison, A. M., additional, Warren, M., additional, Stromberg, P. G., additional, Thelen, P. M., additional, Blasy, B., additional, Nandy, P., additional, Haddad, A. W., additional, Trujillo, L. B., additional, Wiseley, T. H., additional, Bell, S. A., additional, Teske, N. P., additional, Post, C., additional, Torres-Castro, L., additional, Grosso, C., additional, and Wasiolek, M., additional

Published
2022
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9. Science of the Europa Lander Mission Concept

Author

Hand, Kevin, primary, Murray, A. E., additional, Garvin, J. B., additional, Brinckerhoff, W. B., additional, Christner, B., additional, Edgett, K. E., additional, Ehlmann, B., additional, German, C., additional, Hayes, A., additional, Hoehler, T., additional, Hörst, S., additional, Lunine, J., additional, Nealson, K., additional, Paranicas, C., additional, Schmidt, B. E., additional, Smith, D. E., additional, Rhoden, A., additional, Russell, M., additional, Templeton, A., additional, Willis, P., additional, Yingst, A., additional, Phillips, C. B., additional, Cable, M. L., additional, Craft, K. L., additional, Nordheim, T. A., additional, Pitesky, J., additional, Cameron, M., additional, Hofgartner, J. D., additional, Hofmann, A. E., additional, Scully, J., additional, Kosberg, J., additional, Foster, J., additional, and Klonicki, E., additional

Published
2021
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10. Mars Next Orbiter Science Analysis Group (NEX-SAG): White Paper Report to the 2023-2032 Planetary Sciences and Astrobiology Decadal Survey

Author

Zurek, Richard, primary, Campbell, Bruce, additional, Byrne, S., additional, Calvin, W., additional, Carter, L. M., additional, Clancy, R. T., additional, Ehlmann, B., additional, Garvin, J. B., additional, Kahre, M., additional, Kerber, L. A., additional, Murchie, S., additional, Putzig, N. E., additional, Salvatore, M. R., additional, Smith, M. D., additional, Tamppari, L., additional, Thomson, B., additional, Diniega, S., additional, Lock, R. E., additional, Bridges, N., additional, Whitley, R., additional, Bussey, B., additional, Meyer, M., additional, and Pratt, L., additional

Published
2021
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11. High Spatial Resolution Studies of Epithermal Neutron Emission from the Lunar Poles: Constraints on Hydrogen Mobility

Author

Boynton, W. V, Droege, G. F, Mitrofanov, I. G, McClanahan, T. P, Sanin, A. B, Litvak, M. L, Schaffner, M, Chin, G, Evans, L. G, Garvin, J. B, Harshman, K, Malakhov, A, Milikh, G, Sagdeev, R, and Starr, R

Subjects
Geophysics
Abstract

The data from the collimated sensors of the LEND instrument are shown to be of exceptionally high quality. Counting uncertainties are about 0.3% relative and are shown to be the only significant source of random error, thus conclusions based on small differences in count rates are valid. By comparison with the topography of Shoemaker crater, the spatial resolution of the instrument is shown to be consistent with the design value of 5 km for the radius of the circle over which half the counts from the lunar surface would be determined. The observed epithermal-neutron suppression factor due to the hydrogen deposit in Shoemaker crater of 0.25 plus or minus 0.04 cps is consistent with the collimated field-of-view rate of 1.7 cps estimated by Mitrofanov et al. (2010a). The statistical significance of the neutron suppressed regions (NSRs) relative to the larger surrounding polar region is demonstrated, and it is shown that they are not closely related to the permanently shadowed regions. There is a significant increase in H content in the polar regions independent of the H content of the NSRs. The non-NSR H content increases directly with latitude, and the rate of increase is virtually identical at both poles. There is little or no increase with latitude outside the polar region. Various mechanisms to explain this steep increase in the non-NSR polar H with latitude are investigated, and it is suggested that thermal volatilization is responsible for the increase because it is minimized at the low surface temperatures close to the poles.

Published
2012
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12. The Osiris-Rex Mission - Sample Acquisitions Strategy and Evidence for the Nature of Regolith on Asteroid (101955) 1999 RQ36

Author

Lauretta, D. S, Barucci, M. A, Bierhaus, E. B, Brucato, J. R, Campins, H, Christensen, P. R, Clark, B. C, Connolly, H. C, Dotto, E, Dworkin, J. P, Emery, J, Garvin, J. B, Hildebrand, A. R, Libourel, G, Marshall, J. R, Michel, P, Nolan, M. C, Nuth, J. A, Rizk, B, Sandford, S. A, and Scheeres, D. J

Subjects
Astronomy
Abstract

NASA selected the OSIRIS-REx Asteroid Sample Return Mission as the third New Frontiers mission in May 2011 [I]. The mission name is an acronym that captures the scientific objectives: Origins, Spectral Interpretation, Resource Identification, and Security-Regolith Explorer. OSIRIS-REx will characterize near-Earth asteroid (101955) 1999 RQ36, which is both the most accessible carbonaceous asteroid [2,3] and one of the most potentially hazardous asteroids known [4]. The primary objective of the mission is to return a pristine sample from this bod, to advance our understanding of the generation, evolution, and maturation of regolith on small bodies.

Published
2012

13. The Lunar Reconnaissance Orbiter: Plans for the Extended Science Phase

Author

Vondrak, R. R, Keller, J. W, Chin, G, Garvin, J. B, Rice, J. W., Jr, and Petro, N. E

Subjects
Lunar And Planetary Science And Exploration
Abstract

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.

Published
2012

14. Low-Latency Telerobotics from Mars Orbit: The Case for Synergy Between Science and Human Exploration

Author

Valinia, A, Garvin, J. B, Vondrak, R, Thronson, H, Lester, D, Schmidt, G, Fong, T, Wilcox, B, Sellers, P, and White, N

Subjects
Cybernetics, Artificial Intelligence And Robotics
Abstract

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.

Published
2012

15. Hydrogen Mapping of the Lunar South Pole Using the LRO Neutron Detector Experiment LEND

Author

Mitrofanov, I. G., Sanin, A. B., Boynton, W. V., Chin, G., Garvin, J. B., Golovin, D., Evans, L. G., Harshman, 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., Shvetsov, V., Smith, D. E., Starr, R., Tretyakov, V. I., Trombka, J., Usikov, D., Varenikov, A., Vostrukhin, A., and Zuber, M. T.

Published
2010
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17. Scientific Goals and Objectives for the Human Exploration of Mars: 1. Biology and Atmosphere/Climate

Author

Levine, Joel S, Garvin, J. B, Anbar, A. D, Beaty, D. W, Bell, M. S, Clancy, R. T, Cockell, C. S, Connerney, J. E, Doran, P. T, Delory, G, Dickson, J. T, Elphic, R. C, Eppler, D. B, Fernandez-Remolar, D. C, Head, J. W, Helper, M, Gruener, J. E, Heldmann, J, Hipkin, V, Lane, M. D, Levy, J, Moersch, J, Ori, G. G, Peach, L, and Poulet, F

Subjects
Lunar And Planetary Science And Exploration
Abstract

To prepare for the exploration of Mars by humans, as outlined in the new national vision for Space Exploration (VSE), the Mars Exploration Program Analysis Group (MEPAG), chartered by NASA's Mars Exploration Program (MEP), formed a Human Exploration of Mars Science Analysis Group (HEM-SAG), in March 2007. HEM-SAG was chartered to develop the scientific goals and objectives for the human exploration of Mars based on the Mars Scientific Goals, Objectives, Investigations, and Priorities.1 The HEM-SAG is one of several humans to Mars scientific, engineering and mission architecture studies chartered in 2007 to support NASA s plans for the human exploration of Mars. The HEM-SAG is composed of about 30 Mars scientists representing the disciplines of Mars biology, climate/atmosphere, geology and geophysics from the U.S., Canada, England, France, Italy and Spain. MEPAG selected Drs. James B. Garvin (NASA Goddard Space Flight Center) and Joel S. Levine (NASA Langley Research Center) to serve as HEMSAG co-chairs. The HEM-SAG team conducted 20 telecons and convened three face-to-face meetings from March through October 2007. The management of MEP and MEPAG were briefed on the HEM-SAG interim findings in May. The HEM-SAG final report was presented on-line to the full MEPAG membership and was presented at the MEPAG meeting on February 20-21, 2008. This presentation will outline the HEM-SAG biology and climate/atmosphere goals and objectives. A companion paper will outline the HEM-SAG geology and geophysics goals and objectives.

Published
2008

18. High Resolution Digital Elevation Models of Pristine Explosion Craters

Author

Farr, T. G, Krabill, W, and Garvin, J. B

Subjects
Lunar And Planetary Science And Exploration
Abstract

In order to effectively capture a realistic terrain applicable to studies of cratering processes and landing hazards on Mars, we have obtained high resolution digital elevation models of several pristine explosion craters at the Nevada Test Site. We used the Airborne Terrain Mapper (ATM), operated by NASA's Wallops Flight Facility to obtain DEMs with 1 m spacing and 10 cm vertical errors of 4 main craters and many other craters and collapse pits. The main craters that were mapped are Sedan, Scooter, Schooner, and Danny Boy. The 370 m diameter Sedan crater, located on Yucca Flat, is the largest and freshest explosion crater on Earth that was formed under conditions similar to hypervelocity impact cratering. As such, it is effectively pristine, having been formed in 1962 as a result of a controlled detonation of a 100 kiloton thermonuclear device, buried at the appropriate equivalent depth of burst required to make a simple crater. Sedan was formed in alluvium of mixed lithology and subsequently studied using a variety of field-based methods. Nearby secondary craters were also formed at the time and were also mapped by ATM. Adjacent to Sedan and also in alluvium is Scooter, about 90 m in diameter and formed by a high-explosive event. Schooner (240 m) and Danny Boy (80 m) craters were also important targets for ATM as they were excavated in hard basalt and therefore have much rougher ejecta. This will allow study of ejecta patterns in hard rock as well as engineering tests of crater and rock avoidance and rover trafficability. In addition to the high resolution DEMs, crater geometric characteristics, RMS roughness maps, and other higher-order derived data products will be generated using these data. These will provide constraints for models of landing hazards on Mars and for rover trafficability. Other planned studies will include ejecta size-frequency distribution at the resolution of the DEM and at finer resolution through air photography and field measurements, correlation of ejecta size and composition with radar and visible-thermal IR remote sensing signatures, and comparison of these results with similar measurements of Mars. The final DEMs, ancillary data sets, and derived data products will be made available to the community.

Published
2004

19. The Dependence of Target Properties Upon Fresh Crater Morphologies on Mars

Author

Whitehead, J, Grieve, R. A. F, Garvin, J. B, and Spray, J. G

Subjects
Lunar And Planetary Science And Exploration
Abstract

Viking and Mars Orbiter Camera (MOC) images for approx. 900 "fresh" complex craters were chosen for inspection from a database of 1599 complex craters for which physical attributes have been obtained using the Mars Orbiter Laser Altimeter (MOLA). Preliminary analysis revealed that many of the complex craters have been significantly modified by various processes of denudation, as well as partial or complete infilling with sediments +/- impact melt +/- lava, considerably shallowing many of the craters. This study confirms that the majority of the 894 sampled complex craters are affected by such processes. In 474 cases (52%), no central peaks were observed owing to erosion or burial. Of the remaining craters with visible central peaks, 159 of the freshest craters were selected for further study. These were chosen based on: the absence of significant infilling materials; the presence of a sharp rim and, typically; the preservation of the finer scale morphologic features of the associated ejecta blanket. These craters were used in order to assess the association between the target type and various central peak morphologies, ejecta types and crater depth/diameter relations.

Published
2003

20. MOLA Topography and Morphometry of Rampart and Pedestal Craters, Mars

Author

Mitchell, D. E, Sakimoto, S. E. H, and Garvin, J. B

Subjects
Lunar And Planetary Science And Exploration
Abstract

Martian rampart and pedestal craters have characteristic geometric parameter ranges that are significantly different than fresh craters. Combined MOLA geometric measurements and MOC analyses can be used to constrain their modification. Additional information is contained in the original extended abstract.

Published
2002

21. Thermal Inertia, Albedo, and MOLA-derived Roughness for Terrains in the Terra Meridiani Area, Mars

Author

Arvidson, R. E, Deal, K, Hynek, B. M, Seelos, F. P., IV, Snider, N. O, Mellon, M. T, and Garvin, J. B

Subjects
Lunar And Planetary Science And Exploration
Abstract

Surface properties of layered deposits draped on dissected, cratered terrain in the Terra Meridiani area are analyzed using remote sensing data. The etched plains are cemented and differentially eroded, and the hematite plains are loose and drifting. Additional information is contained in the original extended abstract.

Published
2002

22. Global Geometric Properties of Martian Impact Craters

Author

Garvin, J. B, Sakimoto, S. E. H, Frawley, J. J, and Schnetzler, C

Subjects
Lunar And Planetary Science And Exploration
Abstract

We present impact crater geometric properties for more than 5000 fresh martian features using high resolution Mars Orbiter Laser Altimeter digital elevation models and topographic profiles. We discuss global results and significant regional variations. Additional information is contained in the original extended abstract.

Published
2002

23. NASA's new Mars Exploration Program: the trajectory of knowledge

Author

Garvin, J. B, Figueroa, O, and Naderi, F. M

Subjects
Lunar And Planetary Science And Exploration
Abstract

NASA's newly restructured Mars Exploration Program (MEP) is finally on the way to Mars with the successful April 7 launch of the 2001 Mars Odyssey Orbiter. In addition, the announcement by the Bush Administration that the exploration of Mars will be a priority within NASA's Office of Space Science further cements the first decade of the new millennium as one of the major thrusts to understand the "new" Mars. Over the course of the past year and a half, an integrated team of managers, scientists, and engineers has crafted a revamped MEP to respond to the scientific as well as management and resource challenges associated with deep space exploration of the Red Planet. This article describes the new program from the perspective of its guiding philosophies, major events, and scientific strategy. It is intended to serve as a roadmap to the next 10-15 years of Mars exploration from the NASA viewpoint. [For further details, see the Mars Exploration Program web site (URL): http://mars.jpl.nasa.gov]. The new MEP will certainly evolve in response to discoveries, to successes, and potentially to setbacks as well. However, the design of the restructured strategy is attentive to risks, and a major attempt to instill resiliency in the program has been adopted. Mars beckons, and the next decade of exploration should provide the impetus for a follow-on decade in which multiple sample returns and other major program directions are executed. Ultimately the vision to consider the first human scientific expeditions to the Red Planet will be enabled. By the end of the first decade of this program, we may know where and how to look for the elusive clues associated with a possible martian biological record, if any was every preserved, even if only as "chemical fossils.".

Published
2001
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25. Small Martian North Polar Volcanoes: Topographic Implications for Eruptive Styles

Author

Sakimoto, S. E. H, Garvin, J. B, Bradley, B. A, Wong, M, and Frawley, J. J

Subjects
Lunar And Planetary Science And Exploration
Abstract

We characterize and model small volcanoes in the martian mid-latitude and near-polar regions. Regional differences and possible latitude-dependent geometry parameters hint that subsurface volatiles may be significant for polar eruptions. Additional information is contained in the original extended abstract.

Published
2001

26. Fractal Analyses of Small Scale Features on Eros

Author

Cheng, A. F, Barnouin-Jha, O, Zuber, M. T, Veverka, Joseph, Smith, D. E, Neumann, G. A, Robinson, M. S, Thomas, P. C, Garvin, J. B, and Murchie, S

Subjects
Lunar And Planetary Science And Exploration
Abstract

We will discuss the fractal nature of surface structures on asteroid 433 Eros. Additional information is contained in the original extended abstract.

Published
2001

27. MOLA Topography of Small Volcanoes in Tempe Terra and Ceraunius Fossae, Mars: Implications for Eruptive Styles

Author

Wong, M. P, Sakimoto, S. E. H, and Garvin, J. B

Subjects
Lunar And Planetary Science And Exploration
Abstract

We use Mars Orbiter Laser Altimeter (MOLA) data to measure small volcanoes in the Tempe Terra and Ceraunius Fossae regions of Mars. We find that previous geometry estimates based on imagery alone are inaccurate, but MOLA data support image-based interpretations of eruptive style. Additional information is contained in the original extended abstract.

Published
2001

28. Preliminary Impact Crater Dimensions on 433 Eros from the NEAR Laser Rangefinder and Imager

Author

Barnouin-Jha, O. S, Garvin, J. B, Cheng, A. F, Zuber, M, Smith, D, Neumann, G, Murchie, S, Veverka, J, and Robinson, M

Subjects
Lunar And Planetary Science And Exploration
Abstract

We report preliminary observations obtained from the NEAR Laser Rangefinder (NLR) and NEAR Multispectral Imager (MSI) for approx. 300 craters seen on 433 Eros to address Eros crater formation and degradation processes. Additional information is contained in the original extended abstract.

Published
2001

29. Topography of Small Volcanoes at the Margin of the Mars North Polar Cap

Author

Sakimoto, S. E. H, Garvin, J. B, Wong, M, and Wright, H

Subjects
Lunar And Planetary Science And Exploration
Abstract

Putative volcanic craterforms have been observed in the north polar region of Mars since Mariner 9. Hodges and Moore described some of these features for the region they called the 'Borealis Volcanic Field', and suggested that several were formed as a consequence of magma-ice or magmawater interactions. Mars Orbiter Laser Altimeter (MOLA) topographic measurements confirm suggest that the features are unlikely to be of impact origin, and that there are many more of them present around the north polar cap than suspected from images alone. Analysis of one of the larger features--suggested by Hodges and Moore to represent a hydromagmatic explosion crater or maar--showed topographic characteristics more similar to a terrestrial small basaltic shield volcano, possibly of recent origins. Recent work with the MOLA topography has also suggested that the possible volcanic extent of the Borealis Field is substantially larger in both number and range than previously mapped. Since the majority of these features are within 100 km of the present edge of the northern residual polar cap, and several extend into the Chasma Boreale cap re-entrant, they are some of the best Mars candidates for possible magma-water or magma-ice interactions. However, so far, these features have not displayed the expected average slope or other characteristics predicted for martian hydrovolcanic features, or even martian explosive volcanic features. Here, we show some of the range of feature types observed in the topography, along with their characteristic topographic measurements, and compare them to terrestrial and martian volcanic features. Additional information is contained in the original extended abstract.

Published
2000

30. Vertical Roughness of the Polar Regions of Mars from Mars Orbiter Laser Altimeter Pulse-Width Measurements

Author

Garvin, J. B, Frawley, J. J, and Sakimoto, S. E. H

Subjects
Lunar And Planetary Science And Exploration
Abstract

The sub-kilometer scale vertical roughness of the martian surface in the polar regions can be investigated using calibrated, optical pulse width data provided by the Mars Orbiter Laser Altimeter (MOLA). Garvin and others have previously discussed initial observations of what we have called "total vertical roughness" or TVR, as derived from MOLA optical pulse width observations acquired during the pre-mapping phases of the Mars Global Surveyor (MGS) mission. Here we present the first assessment of the Mars polar region properties of the TVR parameter from more than nine months of continuous mapping by MOLA as part of the MGS mapping mission. Other than meter-scale surface properties directly inferred from Mars Orbiter Camera (MOC) images, MOLA measurements of footprint-scale TVR represent the only direct measurements of the local vertical structure of the martian surface at approx. 150 m length scales. These types of data have previously been shown to correlate with geologic process histories for terrestrial desert surfaces on the basis of Shuttle Laser Altimeter (SLA) observations. Additional information is obtained in the original extended abstract.

Published
2000

31. Global Vertical Roughness of Mars from Mars Orbiter Laser Altimeter Pulse-Width Measurements

Author

Garvin, J. B and Frawley, J. J

Subjects
Lunar And Planetary Science And Exploration
Abstract

The global vertical roughness properties of Mars as measured by the Mars Orbiter Laser Altimeter (MOLA) instrument aboard the Mars Global Surveyor is described. Initial results suggest that vertical roughness is correlated with major physiographic units, including portions of the crustal dichotomy.

Published
2000

34. Global Geometric Properties of Martian Impact Craters: An Assessment from Mars Orbiter Laser Altimeter (MOLA) Digital Elevation Models

Author

Garvin, J. B, Frawley, J. J, Sakimoto, S. E. H, and Schnetzler, C

Subjects
Lunar And Planetary Science And Exploration
Abstract

Global geometric characteristics of topographically fresh impact craters have been assessed, for the first time, from gridded MOLA topography. Global trends of properties such as depth/diameter differ from previous estimates. Regional differences are observed.

Published
2000

38. Topography of Small Volcanic Edifices in the Mars Northern Polar Region from Mars Orbiter Laser Altimeter Observations

Author

Sakimoto, S. E. H, Garvin, J. B, and Wright, H

Subjects
Lunar And Planetary Science And Exploration
Abstract

Topography of the Borealis Volcanic Field adjacent to and within Chasma Boreale of the Mars Northern Polar Cap. Results suggest that the volcanic field extent and population is larger than previously thought, with primarily fresh-appearing basaltic shield edifice types.

Published
2000

39. Martian Polar Impact Craters: A Preliminary Assessment Using Mars Orbiter Laser Altimeter (MOLA)

Author

Sakimoto, S. E. H and Garvin, J. B

Subjects
Lunar And Planetary Science And Exploration
Abstract

Our knowledge of the age of the layered polar deposits and their activity in the volatile cycling and climate history of Mars is based to a large extent on their apparent ages as determined from crater counts. Interpretation of the polar stratigraphy (in terms of climate change) is complicated by reported differences in the ages of the northern and southern layered deposits. The north polar residual ice deposits are thought to be relatively young, based on the reported lack of any fresh impact craters in Viking Orbiter Images. Herkenhoff et al., report no craters at all on the North polar layered deposits or ice cap, and placed an upper bound on the surface age (or, alternatively, the vertical resurfacing rate) of 100 thousand years to 10 million years, suggesting that the north polar region is an active resurfacing site. In contrast, the southern polar region was found to have at least 15 impact craters in the layered deposits and cap. Plaut et al, concluded that the surface was less than or = 120 million years old. This reported age difference factor of 100 to 1000 increases complexity in climate and volatile modeling. Recent MOLA results for the topography of the northern polar cap document a handful or more of possible craters, which could result in revised age or resurfacing estimates for the northern cap. This study is a preliminary look at putative craters in both polar caps. Additional information is contained in the original extended abstract.

Published
1999

40. MOLA: The Future of Mars Global Cartography

Author

Duxbury, T. C, Smith, D. E, Zuber, M. T, Frey, H. V, Garvin, J. B, Head, J. W, Muhleman, D. O, Pettengill, G. H, Phillips, R. J, and Solomon, S. C

Subjects
Earth Resources And Remote Sensing
Abstract

The MGS Orbiter is carrying the high-precision Mars Orbiter Laser Altimeter (MOLA) which, when combined with precision reconstructed orbital data and telemetered attitude data, provides a tie between inertial space and Mars-fixed coordinates to an accuracy of 100 m in latitude / longitude and 10 m in radius (1 sigma), orders of magnitude more accurate than previous global geodetic/ cartographic control data. Over the 2 year MGS mission lifetime, it is expected that over 30,000 MOLA Global Cartographic Control Points will be produced to form the basis for new and re-derived map and geodetic products, key to the analysis of existing and evolving MGS data as well as future Mars exploration. Additional information is contained in the original extended abstract.

Published
1999

41. Global Geometric Properties of Martian Impact Craters: A Preliminary Assessment Using Mars Orbiter Laser Altimeter (MOLA)

Author

Garvin, J. B, Sakimoto, S. E. H, Schnetzler, C, and Frawley, J. J

Subjects
Lunar And Planetary Science And Exploration
Abstract

Impact craters on Mars have been used to provide fundamental insights into the properties of the martian crust, the role of volatiles, the relative age of the surface, and on the physics of impact cratering in the Solar System. Before the three-dimensional information provided by the Mars Orbiter Laser Altimeter (MOLA) instrument which is currently operating in Mars orbit aboard the Mars Global Surveyor (MGS), impact features were characterized morphologically using orbital images from Mariner 9 and Viking. Fresh-appearing craters were identified and measurements of their geometric properties were derived from various image-based methods. MOLA measurements can now provide a global sample of topographic cross-sections of martian impact features as small as approx. 2 km in diameter, to basin-scale features. We have previously examined MOLA cross-sections of Northern Hemisphere and North Polar Region impact features, but were unable to consider the global characteristics of these ubiquitous landforms. Here we present our preliminary assessment of the geometric properties of a globally-distributed sample of martian impact craters, most of which were sampled during the initial stages of the MGS mapping mission (i.e., the first 600 orbits). Our aim is to develop a framework for reconsidering theories concerning impact cratering in the martian environment. This first global analysis is focused upon topographically-fresh impact craters, defined here on the basis of MOLA topographic profiles that cross the central cavities of craters that can be observed in Viking-based MDIM global image mosaics. We have considered crater depths, rim heights, ejecta topologies, cross-sectional "shapes", and simple physical models for ejecta emplacement. To date (May, 1999), we have measured the geometric properties of over 1300 impact craters in the 2 to 350 km diameter size interval. A large fraction of these measured craters were sampled with cavity-center cross-sections during the first two months of MGS mapping. Many of these craters are included in Nadine Barlow's Catalogue of Martian Impact Craters, although we have treated simple craters smaller than about 7 km in greater detail than all previous investigations. Additional information is contained in the original extended abstract.

Published
1999

42. The global topography of Mars and implications for surface evolution

Author

Smith, D. E, Zuber, M. T, Solomon, S. C, Phillips, R. J, Head, J. W, Garvin, J. B, Banerdt, W. B, Muhleman, D. O, Pettengill, G. H, Neumann, G. A, Lemoine, F. G, Abshire, J. B, Aharonson, O, Brown, C. D, Hauck, S. A, Ivanov, A. B, McGovern, P. J, Zwally, H. J, and Duxbury, T. C

Subjects
Lunar And Planetary Science And Exploration
Abstract

Elevations measured by the Mars Orbiter Laser Altimeter have yielded a high-accuracy global map of the topography of Mars. Dominant features include the low northern hemisphere, the Tharsis province, and the Hellas impact basin. The northern hemisphere depression is primarily a long-wavelength effect that has been shaped by an internal mechanism. The topography of Tharsis consists of two broad rises. Material excavated from Hellas contributes to the high elevation of the southern hemisphere and to the scarp along the hemispheric boundary. The present topography has three major drainage centers, with the northern lowlands being the largest. The two polar cap volumes yield an upper limit of the present surface water inventory of 3.2 to 4.7 million cubic kilometers.

Published
1999
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43. Near-Polar Cratered Cones on Mars: Mola Measurements and Implications for Volcanic Origins

Author

Garvin, J. B and Sakimoto, S. E. H

Subjects
Lunar And Planetary Exploration
Abstract

Near-polar craterforms have been observed on Mars since Mariner 9. Hodges and Moore [1,2] described the implications of these apparently volcanic features and suggested that several were formed as a consequence of magma-ice or magma-water interactions. Indeed, they proposed that the feature illustrated in Fig. I represents a hydromagmatic explosion crater or maar, indicating interaction of ground-ice and/or water with magma in the higher Northern hemisphere latitudes of Mars. The advent of Mars Orbiter Laser Altimeter (MOLA) topographic information 161 for several of the putative volcanic craterforms described in [1,2] allows a reconsideration of their formation mechanisms. We have exploited MOLA's near-centerline cross-sections from the Science Phasing Orbit phase of the Mars Global Surveyor (MGS) mission to analyze the geometric properties of these features as constraints on their modes of origin and subsequent modification histories. From our preliminary analyses, we believe there is evidence these features may have been formed by effusive, lava shield building eruptions, and not hydromagmatic events. Furthermore, geometrical constraints indicate that some of the near-polar craterforms are geologically youthful.

Published
1999

44. Regional Elevations in the Southern Hemisphere of Mars From the Mars Orbiter Laser Altimeter

Author

Smith, D. E, Zuber, M. T, Frey, H. V, Garvin, J. B, Head, J. W, Muhleman, D. O, Neumann, G. A, Pettengill, G. H, Phillips, R. J, and Solomon, S. C

Subjects
Lunar And Planetary Exploration
Abstract

The Mars Orbiter Laser Altimeter (MOLA) is an instrument on the Mars Global Surveyor (MGS) spacecraft that is currently providing the first high vertical and spatial resolution topographic measurements of surface elevations on Mars. The shot size in the mapping orbit is about 100 m and the shot-to-shot spacing is 330 m. The instrument has a vertical precision of 37.5 cm and a vertical accuracy that depends on the radial accuracy of the MGS orbit that is currently in the range 5-30 km. The initial focus on observations in the nominal mapping mission will be on the southern hemisphere, which was not sampled during the MGS aerobraking hiatus and Science Phasing orbits. During the first several weeks of global mapping there will be emphasis on producing a digital terrain model (DTM) of the Mars '98 landing site.

Published
1999

47. Observations of the north polar region of Mars from the Mars orbiter laser altimeter

Author

Zuber, M. T, Smith, D. E, Solomon, S. C, Abshire, J. B, Afzal, R. S, Aharonson, O, Fishbaugh, K, Ford, P. G, Frey, H. V, Garvin, J. B, Head, J. W, Ivanov, A. B, Johnson, C. L, Muhleman, D. O, Neumann, G. A, Pettengill, G. H, Phillips, R. J, Sun, X, Zwally, H. J, Banerdt, W. B, and Duxbury, T. C

Subjects
Lunar And Planetary Science And Exploration
Abstract

Elevations from the Mars Orbiter Laser Altimeter (MOLA) have been used to construct a precise topographic map of the martian north polar region. The northern ice cap has a maximum elevation of 3 kilometers above its surroundings but lies within a 5-kilometer-deep hemispheric depression that is contiguous with the area into which most outflow channels emptied. Polar cap topography displays evidence of modification by ablation, flow, and wind and is consistent with a primarily H2O composition. Correlation of topography with images suggests that the cap was more spatially extensive in the past. The cap volume of 1.2 x 10(6) to 1.7 x 10(6) cubic kilometers is about half that of the Greenland ice cap. Clouds observed over the polar cap are likely composed of CO2 that condensed out of the atmosphere during northern hemisphere winter. Many clouds exhibit dynamical structure likely caused by the interaction of propagating wave fronts with surface topography.

Published
1998
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48. Topography of Impact Structures on the Northern Polar Cap of Mars

Author

Sakimoto, S. E. H and Garvin, J. B

Subjects
Lunar And Planetary Exploration
Abstract

The north polar residual ice deposits of mars are thought to be relatively young, based on the reported lack of any fresh impact craters in Viking Orbiter images. A handful of possible impact features were identified, but available data were inconclusive. Determining the number and current topographic characteristics of any craters on the polar residual ice surface is important in constraining the surface age, relative importance of polar cap resurfacing processes and ice flow dynamics, and the role of the cap deposits in the global volatile and climate cycles. Subsequent image processing advances and new Mars Orbiter Laser Altimeter (MOLA) data in the north polar region are now a considerable aid in impact feature identification. This study reconsiders the abundant Viking high-resolution polar images along with the new altimetry data. We examine possible impact features, compare their topography with known mars high-latitude impact features, and use their morphology as a constraint on crater modification processes.

Published
1998

49. Mid-Latitude versus Polar-Latitude Transitional Impact Craters: Geometric Properties from Mars Orbiter Laser Altimeter (MOLA) Observations and Viking Images

Author

Matias, A, Garvin, J. B, and Sakimoto, S. E. H

Subjects
Lunar And Planetary Exploration
Abstract

One intriguing aspect of martian impact crater morphology is the change of crater cavity and ejecta characteristics from the mid-latitudes to the polar regions. This is thought to reflect differences in target properties such as an increasing presence of ice in the polar regions. Previous image-based efforts concerning martian crater morphology has documented some aspects of this, but has been hampered by the lack of adequate topography data. Recent Mars Orbiter Laser Altimeter (MOLA) topographic profiles provide a quantitative perspective for interpreting the detailed morphologies of martian crater cavities and ejecta morphology. This study is a preliminary effort to quantify the latitude-dependent differences in morphology with the goal of identifying target-dependent and crater modification effects from the combined of images and MOLA topography. We combine the available MOLA profiles and the corresponding Viking Mars Digital Image Mosaics (MDIMS), and high resolution Viking Orbiter images to focus on two transitional craters; one on the mid-latitudes, and one in the North Polar region. One MOLA pass (MGS Orbit 34) traverses the center of a 15.9 km diameter fresh complex crater located at 12.8degN 83.8degE on the Hesperian ridge plains unit (Hvr). Viking images, as well as MOLA data, show that this crater has well developed wall terraces and a central peak with 429 m of relative relief. Three MOLA passes have been acquired for a second impact crater, which is located at 69.5degN 41degE on the Vastitas Borealis Formation. This fresh rampart crater lacks terraces and central peak structures and it has a depth af 579 m. Correlation between images and MOLA topographic profiles allows us to construct basic facies maps of the craters. Eight main units were identified, four of which are common on both craters.

Published
1998

50. Martian Polar Region Impact Craters: Topographical Perspectives from the Mars Orbiter Laser Altimeter

Author

Garvin, J. B, Sakimoto, S. E. H, Frawley, J. J, and Matias, A

Subjects
Lunar And Planetary Exploration
Abstract

The Mars Orbiter Laser Altimeter (MOLA) has acquired over 100 topographic cross-sections of impact landforms in the polar regions of Mars as part of Mars Global Surveyor (MGS) Science Phasing Orbit observations during the period from April to July, 1998. These MOLA topographic profiles offer the first three-dimensional perspectives of high latitude craters on Mars yet available, and provide evidence of landform geometries not previously recognized. Indeed, the relatively poor quality of Viking Orbiter images of many high northern latitude regions has allowed the MOLA data to provide insights into the cavities and ejecta topologies of non-degraded impact landforms that have clearly experienced interactions with condensates, either as part of their formation, or as a post-modification stage effect. Here we report a preliminary summary of the results associated with topographic measurements for a statistically significant population of impact features all of which lie north of 60N latitude. MOLA sampled four impact features with frost-related interior deposits, including the 81 km (diameter) Korolev feature. In several cases, there is evidence from near-centerline MOLA cross-sections of crater interior features (i.e., central peak or ice-dust deposits) that are anomalously large relative to the crater cavity. Central structures that make up more than 50% of the volume of a crater cavity are observed, suggesting that either substantial accumulation of mantling materials has occurred, or that crater excavation triggered production of volume-enhancing materials (ice?). Pedestal craters sampled by MOLA also attest to enhanced production of ejecta materials in high latitude terrains. For example, many of the pedestal craters suggest a volume of ejecta (Ve) to volume of cavity (Vc) ratio far in excess of 1.0 (i.e., over 3.0), even in cases where the floor of the cavity appears unfilled. Finally, the well-defined transitions between simple and complex craters observed in MOLA data for non-polar latitude impact features is not preserved at high northern latitudes (for non-degraded craters). This further suggests the role of target materials (i.e., frozen volatiles?) in the cratering process on Mars in such regions.

Published
1998

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