Search

Your search keyword '"Pepin, Robert O."' showing total 123 results
Start Over Author "Pepin, Robert O."
123 results on '"Pepin, Robert O."'

2. Presolar Grains from Novae: Evidence from Neon and Helium Isotopes in Comet Dust Collections

Author

Pepin, Robert O., Palma, Russell L., Gehrz, Robert D., and Starrfield, Sumner

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics
Abstract

Presolar grains in meteorites and interplanetary dust particles (IDPs) carry non-solar isotopic signatures pointing to origins in supernovae, giant stars, and possibly other stellar sources. There have been suggestions that some of these grains condensed in the ejecta of classical nova outbursts, but the evidence is ambiguous. We report neon and helium compositions in particles captured on stratospheric collectors flown to sample materials from comets 26P/Grigg-Skjellerup and 55P/Tempel-Tuttle that point to condensation of their gas carriers in the ejecta of a neon (ONe) nova. The absence of detectable 3He in these particles indicates space exposure to solar wind (SW) irradiation of a few decades at most, consistent with origins in cometary dust streams. Measured 4He/20Ne, 20Ne/22Ne, 21Ne/22Ne and 20Ne/21Ne isotope ratios, and a low upper limit on 3He/4He, are in accord with calculations of nucleosynthesis in neon nova outbursts. Of these, the uniquely low 4He/20Ne and high 20Ne/22Ne ratios are the most diagnostic, reflecting the large predicted 20Ne abundances in the ejecta of such novae. The correspondence of measured Ne and He compositions in cometary matter with theoretical predictions is evidence for the presence of presolar grains from novae in the early solar system., Comment: As appeared in the Astrophysical Journal

Published
2012
Full Text
View/download PDF

8. Comet 81p/Wild 2 under a Microscope

Author

Brownlee, Don, Tsou, Peter, Aléon, Jérôme, Alexander, Conel M. O'D., Araki, Tohru, Bajt, Sasa, Baratta, Giuseppe A., Bastien, Ron, Bland, Phil, Bleuet, Pierre, Borg, Janet, Bradley, John P., Brearley, Adrian, Brenker, F., Brennan, Sean, Bridges, John C., Browning, Nigel D., Brucato, John R., Bullock, E., Burchell, Mark J., Busemann, Henner, Butterworth, Anna, Chaussidon, Marc, Cheuvront, Allan, Chi, Miaofang, Cintala, Mark J., Clark, B. C., Clemett, Simon J., Cody, George, Colangeli, Luigi, Cooper, George, Cordier, Patrick, Daghlian, C., Dai, Zurong, D'Hendecourt, Louis, Djouadi, Zahia, Dominguez, Gerardo, Duxbury, Tom, Dworkin, Jason P., Ebel, Denton S., Economou, Thanasis E., Fakra, Sirine, Fairey, Sam A. J., Fallon, Stewart, Ferrini, Gianluca, Ferroir, T., Fleckenstein, Holger, Floss, Christine, Flynn, George, Franchi, Ian A., Fries, Marc, Gainsforth, Z., Gallien, J.-P., Genge, Matt, Gilles, Mary K., Gillet, Philipe, Gilmour, Jamie, Glavin, Daniel P., Gounelle, Matthieu, Grady, Monica M., Graham, Giles A., Grant, P. G., Green, Simon F., Grossemy, Faustine, Grossman, Lawrence, Grossman, Jeffrey N., Guan, Yunbin, Hagiya, Kenji, Harvey, Ralph, Heck, Philipp, Herzog, Gregory F., Hoppe, Peter, Hörz, Friedrich, Huth, Joachim, Hutcheon, Ian D., Ignatyev, Konstantin, Ishii, Hope, Ito, Motoo, Jacob, Damien, Jacobsen, Chris, Jacobsen, Stein, Jones, Steven, Joswiak, David, Jurewicz, Amy, Kearsley, Anton T., Keller, Lindsay P., Khodja, H., Kilcoyne, A. L. David, Kissel, Jochen, Krot, Alexander, Langenhorst, Falko, Lanzirotti, Antonio, Le, Loan, Leshin, Laurie A., Leitner, J., Lemelle, L., Leroux, Hugues, Liu, Ming-Chang, Leuning, K., Lyon, Ian, MacPherson, Glen, Marcus, Matthew A., Marhas, Kuljeet, Marty, Bernard, Matrajt, Graciela, McKeegan, Kevin, Meibom, Anders, Mennella, Vito, Messenger, Keiko, Messenger, Scott, Mikouchi, Takeshi, Mostefaoui, Smail, Nakamura, Tomoki, Nakano, T., Newville, M., Nittler, Larry R., Ohnishi, Ichiro, Ohsumi, Kazumasa, Okudaira, Kyoko, Papanastassiou, Dimitri A., Palma, Russ, Palumbo, Maria E., Pepin, Robert O., Perkins, David, Perronnet, Murielle, Pianetta, P., Rao, William, Rietmeijer, Frans J. M., Robert, François, Rost, D., Rotundi, Alessandra, Ryan, Robert, Sandford, Scott A., Schwandt, Craig S., See, Thomas H., Schlutter, Dennis, Sheffield-Parker, J., Simionovici, Alexandre, Simon, Steven, Sitnitsky, I., Snead, Christopher J., Spencer, Maegan K., Stadermann, Frank J., Steele, Andrew, Stephan, Thomas, Stroud, Rhonda, Susini, Jean, Sutton, S. R., Suzuki, Y., Taheri, Mitra, Taylor, Susan, Teslich, Nick, Tomeoka, Kazu, Tomioka, Naotaka, Toppani, Alice, Trigo-Rodríguez, Josep M., Troadec, David, Tsuchiyama, Akira, Tuzzolino, Anthony J., Tyliszczak, Tolek, Uesugi, K., Velbel, Michael, Vellenga, Joe, Vicenzi, E., Vincze, L., Warren, Jack, Weber, Iris, Weisberg, Mike, Westphal, Andrew J., Wirick, Sue, Wooden, Diane, Wopenka, Brigitte, Wozniakiewicz, Penelope, Wright, Ian, Yabuta, Hikaru, Yano, Hajime, Young, Edward D., Zare, Richard N., Zega, Thomas, Ziegler, Karen, Zimmerman, Laurent, Zinner, Ernst, and Zolensky, Michael

Published
2006
Full Text
View/download PDF

9. Isotopic Compositions of Cometary Matter Returned by Stardust

Author

McKeegan, Kevin D., Aléon, Jerome, Bradley, John, Brownlee, Donald, Busemann, Henner, Butterworth, Anna, Chaussidon, Marc, Fallon, Stewart, Floss, Christine, Gilmour, Jamie, Gounelle, Matthieu, Graham, Giles, Guan, Yunbin, Heck, Philipp R., Hoppe, Peter, Hutcheon, Ian D., Huth, Joachim, Ishii, Hope, Ito, Motoo, Jacobsen, Stein B., Kearsley, Anton, Leshin, Laurie A., Liu, Ming-Chang, Lyon, Ian, Marhas, Kuljeet, Marty, Bernard, Matrajt, Graciela, Meibom, Anders, Messenger, Scott, Mostefaoui, Smail, Mukhopadhyay, Sujoy, Nakamura-Messenger, Keiko, Nittler, Larry, Palma, Russ, Pepin, Robert O., Papanastassiou, Dimitri A., Robert, François, Schlutter, Dennis, Snead, Christopher J., Stadermann, Frank J., Stroud, Rhonda, Tsou, Peter, Westphal, Andrew, Young, Edward D., Ziegler, Karen, Zimmermann, Laurent, and Zinner, Ernst

Published
2006
Full Text
View/download PDF

11. Brownleeite: a new manganese silicide mineral in an interplanetary dust particle

Author

Nakamura-Messenger, Keiko, Keller, Lindsay P., Clemett, Simon J., Messenger, Scott, Jones, John H., Palma, Russell L., Pepin, Robert O., Klock, Wolfgang, Zolensky, Michael E., and Tatsuoka, Hirokazu

Subjects
Silicides -- Identification and classification, Crystals -- Structure, Crystals -- Analysis, Electrons -- Diffraction, Electrons -- Usage, Earth sciences
Abstract

Brownleeite, ideally stoichiometric MnSi, is a manganese silicide not previously observed in nature that was discovered within an interplanetary dust particle that likely originated from a comet. Three submicrometer brownleeite grains were found, with one of them poikilitically enclosed by Mn-bearing forsterite. Owing to the small size of the brownleeite grains, it was not possible to determine conventional macroscopic properties of this mineral; however, the chemical composition and crystal structure were well constrained by extensive quantitative energy dispersive X-ray analysis and electron diffraction using transmission electron microscopy (TEM). The crystal system for brownleeite is cubic (a = 4.557 [Angstrom]) with space group [P2.sub.1]3, cell volume = 94.63 [[Angstrom].sup.3], Z = 4, density (calculated) = 2.913 g/[cm.sup.3], and empirical formula: ([Mn.sub.0.77][Fe.sub.0.18][Cr.sub.0.05])Si. These brownleeite grains likely formed as high-temperature condensates either in the early Solar System or in the outflow of an evolved star or supernova explosion. Keywords: MnSi, new minerals, electron microscopy, TEM, electron diffraction, lunar and planetary studies, IDPs DOI: 10.2138/am.2010.3263

Published
2010

14. Abundance and Isotopic Composition of Gases in the Martian Atmosphere: First Results from the Mars Curiosity Rover

Author

Mahaffy, Paul, Webster, Chris R, Atreya, Sushil K, Franz, Heather, Wong, Michael, Conrad, Pamela G, Harpold, Dan, Jones, John J, Leshin, Laurie, A, Manning, Heidi, Owen, Tobias, Pepin, Robert O, Squyres, Steven, and Trainer, Melissa

Subjects
Inorganic, Organic And Physical Chemistry, Lunar And Planetary Science And Exploration
Abstract

Repeated measurements of the composition of the Mars atmosphere from Curiosity Rover yield a (40)Ar/N2 ratio 1.7 times greater and the (40)Ar/(36)Ar ratio 1.6 times smaller than the Viking Lander values in 1976. The unexpected change in (40)Ar/N2 ratio probably results from different instrument characteristics although we cannot yet rule out some unknown atmospheric process. The new (40)Ar/(36)Ar ratio is more aligned with Martian meteoritic values. Besides Ar and N2 the Sample Analysis at Mars instrument suite on the Curiosity Rover has measured the other principal components of the atmosphere and the isotopes. The resulting volume mixing ratios are: CO2 0.960(+/- 0.007); (40)Ar 0.0193(+/- 0.0001); N2 0.0189(+/- 0.0003); O2 1.45(+/- 0.09) x 10(exp -3); and CO 5.45(+/- 3.62) x 10(exp 4); and the isotopes (40)Ar/(36)Ar 1.9(+/- 0.3) x 10(exp 3), and delta (13)C and delta (18)O from CO2 that are both several tens of per mil more positive than the terrestrial averages. Heavy isotope enrichments support the hypothesis of large atmospheric loss. Moreover, the data are consistent with values measured in Martian meteorites, providing additional strong support for a Martian origin for these rocks.

Published
2013

15. Discovery of Brownleeite: a New Manganese Silicide Mineral in an Interplanetary Dust Particle

Author

Keller, Lindsay P, Nakamura-Messenger, Keiko, Clemett, Simon J, Messenger, Scott, Jones, John H, Palma, Russell L, Pepin, Robert O, Klock, Wolfgang, Zolensky, Michael E, and Tatsuoka, Hirokazu

Subjects
Lunar And Planetary Science And Exploration
Abstract

The Earth accretes approximately 40,000 tons of cosmic dust annually, originating mainly from the disintegration of comets and collisions among asteroids. This cosmic dust, also known as interplanetary dust particles (IDPs), is a subject of intense interest since it is made of the original building blocks of our Solar System. Although the specific parent bodies of IDPs are unknown, the anhydrous chondritic-porous IDPs (CP-IDPs) subset has been potentially linked to a cometary source. The CP-IDPs are extremely primitive materials based on their unequilibrated mineralogy, C-rich chemistry, and anomalous isotopic signatures. In particular, some CP-IDPs escaped the thermal, aqueous and impact shock processing that has modified or destroyed the original mineralogy of meteorites. Thus, the CP-IDPs represent some of the most primitive solar system materials available for laboratory study. Most CP-IDPs are comprised of minerals that are common on Earth. However, in the course of an examination of one of the CP-IDPs, we encountered three sub-micrometer sized grains of manganese silicide (MnSi), a phase that has heretofore not been found in nature. In the seminar, we would like to focus on IDP studies and this manganese silicide phase that has been approved as the first new mineral identified from a comet by the International Mineralogical Association (IMA) in 2008. The mineral is named in honour of Donald E. Brownlee, an American astronomer and a founder of the field of cosmic dust research who is the principal investigator of the NASA Stardust Mission that collected dust samples from Comet 81P/Wild-2 and returned them to Earth. Much of our current view and understanding of the early solar system would not exist without the pioneering work of professor Don Brownlee in the study of IDPs.

Published
2011

17. Evolution of earth's noble gases: consequences of assuming hydrodynamic loss driven by giant impact

Author

Pepin, Robert O.

Subjects
Earth -- Atmosphere, Gases, Rare -- Research, Hydrodynamics -- Research, Astronomy, Earth sciences
Abstract

A simple analytic model of hydrodynamic escape is applied to atmospheric loss from Earth under conditions that are unproven but could plausibly have existed following deposition of thermal energy by a giant Moon-forming impact. Primordial xenon in the primary (pre-impact) atmosphere is readily fractionated to its contemporary nonradiogenic isotopic composition by appropriate selection of parameters in the equations governing the escape process. Subsequent mixing of the fractionated residuals of lighter primordial noble gases surviving in the post-escape atmosphere with solar-composition gases outgassed from the deep planetary interior yields close matches to the present-day abundances and isotopic compositions of atmospheric krypton and argon. Replication of present-day neon composition requires an additional later episode of hydrodynamic [H.sub.2] escape, now powered by extreme-ultraviolet (EUV) solar radiation just intense enough for entrainment and loss of Ne but not of heavier species. Requirements for EUV flux intensity and planetary water inventory are substantially reduced compared to an earlier model of EUV-driven Xe loss from Earth. A noteworthy result of this approach is the close agreement of the noble gas elemental composition characterizing the pre-impact terrestrial atmosphere with that derived for Venus's primary atmosphere from a parallel evolutionary model involving only solar EUV radiation as an energy source. No claim is made that the modeling parameters used here adequately describe the complex and rapidly evolving physical nature of the post-impact terrestrial atmosphere, or that these solutions are unique. But they do suggest a basic unity in primordial noble gas distributions on the two planets, and point to separate mechanisms that could account for divergent evolution to their presently radically different compositional states.

Published
1997

19. Evolution of the Martian atmosphere

Author

Pepin, Robert O.

Subjects
Mars (Planet) -- Atmosphere, Astronomy, Earth sciences
Abstract

A new model for the evolution of the Martian atmosphere involves the study of its constituents from the time of formation in primordial inventories to the present state. The constituents include nitrogen, carbon dioxide, radiogenic and nonradiogenic noble gases. The model reveals that atmospheric constituents evolved by different methods such as outgassing, sputtering, impact erosion, hydrodynamic escape, carbonate formation and recycling. During evolution, several gases were subjected to fractionation and even feedback stabilization.

Published
1994

20. Mars atmospheric loss and isotopic fractionation by solar-wind-induced sputtering and photochemical escape

Author

Jakosky, Bruce M., Pepin, Robert O., Johnson, Robert E., and Fox, J.L.

Subjects
Mars (Planet) -- Atmosphere, Solar wind -- Research, Sputtering (Physics) -- Research, Astronomy, Earth sciences
Abstract

Investigation of the loss effect in atmospheric constituents of Mars helps determine the overall loss of components for a period of 3.8 billion years. The atmospheric constituent loss is caused by photochemical escape and solar wind stimulated sputtering. The total loss of each constituent of the Martian atmosphere depends on the isotopic ratios of the constituents, the sources which produce that constituent and reaction with sinks and reservoirs that are not present in Martian atmosphere.

Published
1994

21. Solar wind noble gases and nitrogen in metal from lunar soil 68501

Author

Becker, Richard H and Pepin, Robert O

Subjects
Lunar And Planetary Exploration
Abstract

Noble gases and N were analyzed in handpicked metal separates from lunar soil 68501 by a combination of step-wise combustions and pyrolyses. Helium and Ne were found to be unfractionated with respect to one another when normalized to solar abundances, for both the bulk sample and for all but the highest temperature steps. However, they are depleted relative to Ar, Kr and Xe by at least a factor of 5. The heavier gases exhibit mass-dependent fractionation relative to solar system abundance ratios but appear unfractionated, both in the bulk metal and in early temperature steps, when compared to relative abundances derived from lunar ilmenite 71501 by chemical etching, recently put forward as representing the abundance ratios in solar wind. Estimates of the contribution of solar energetic particles (SEP) to the originally implanted solar gases, derived from a basic interpretation of He and Ne isotopes, yield values of about 10%. Analysis of the Ar isotopes requires a minimum of 20% SEP, and Kr isotopes, using our preferred composition for solar wind Kr, yield a result that overlaps both these values. It is possible to reconcile the data from these gases if significant loss of solar wind Ar, Kr and presumably Xe has occurred relative to the SEP component, most likely by erosive processes that are mass independent, although mass-dependent losses (Ar greater than Kr greater than Xe) cannot be excluded. If such losses did occur, the SEP contribution to the solar implanted gases must have been no more than a few percent. Nitrogen is a mixture of indigenous meteoritic N, whose isotopic composition is inferred to be relatively light, and implanted solar N, which has probably undergone diffusive redistribution and fractionation. If the heavy noble gases have not undergone diffusive loss, then N/Ar in the solar wind can be inferred to be at least several times the accepted solar ratio. The solar wind N appears, even after correction for fractionation effects, to have a minimum delta N-15 value equal to or greater than +150% and a more probable value equal to or greater than +200%.

Published
1994

22. Nitrogen and noble gases in a glass sample from the LEW88516 shergottite

Author

Becker, Richard H and Pepin, Robert O

Subjects
Lunar And Planetary Exploration
Abstract

A glass separate from the LEW88516 shergottite was analyzed by step-wise combustion for N and noble gases to determine whether it contained trapped gas similar in composition to the martian atmosphere-like component previously observed in lithology C of EETA79001. Excesses of Ar-40 and Xe-129 were in fact observed in this glass, although the amounts of these excesses less than or = to 20% of those seen in the latter meteorite, and are comparable to the amounts seen in whole-rock analyses of LEW88516. The isotopic composition of N in LEW88516 does not show an enrichment in delta N-15 commensurate with the amount of isotopically-heavy N expected from the noble gases excesses. One must posit some extreme assumptions about the nature of the N components present in LEW88516 in order to allow the presence of the trapped nitrogen component. Alternatively, the N has somehow been decoupled from the noble gases, and was either never present of has been lost.

Published
1993

23. Venus and Mars: Atmospheres, ionospheres, and solar wind interactions; Proceedings of the Chapman Conference, Balatonfured, Hungary, June 4-8, 1990

Author

Luhmann, Janet G, Tatrallyay, Mariella, and Pepin, Robert O

Subjects
Lunar And Planetary Exploration
Abstract

The present conference discusses the evolution and chemistry-surface interactions of the Venus and Mars atmospheres, the properties of thermospheric gravity waves on earth, Venus, and Mars, far-UV remote sensing of Mars and Venus, in situ results for the Venus ionosphere, radio occultation data for the Mars and Venus ionospheres, and solar-wind interactions with Mars. Also discussed are evidence for waves in the Venus and Mars atmospheres, an interpretation of the large-scale ionospheric magnetic fields of the Venus and Mars daysides' ionospheric plasma, a computer model of solar wind interaction with Venus and Mars, and solar-wind effects on the atmospheric evolution of Venus and Mars.

Published
1992

24. Major issues and outstanding questions

Author

Pepin, Robert O and Carr, Michael H

Subjects
Lunar And Planetary Exploration
Abstract

The physical, chemical, geologic, and biological issues underlying current efforts to understand Mars are introduced and summarized. Attention is given not only to the present status and past history of Mars, and also to Mars as one member of the class of terrestrial planets and as one product of the evolution from the primordial accretion disk. The issue of the origin and evolution of Mars' inventory of volatile elements is treated in detail, as are the SNC meteorites, both for what these putative Martian samples indicate about volatile distributions and because of their profound impact on assessments on bulk chemical composition and the chronology of planetary differentiation and late-stage volcanism. Overviews of the major problems arising from multidisciplinary investigations of the planet are also presented.

Published
1992

25. The early Martian atmosphere

Author

Pepin, Robert O

Subjects
Lunar And Planetary Exploration
Abstract

Atmospheric noble gases on Mars, Earth, and Venus are severely and variably depleted with respect to solar abundances, and are characterized by isotopic signatures that differ from planet to planet and from meteoritic and inferred solar compositions. Earlier theories based on simple accretion of meteoritic veneers as planetary volatile sources are unable to replicate these distributions, and so attention is now focusing on evolutionary processes that can fractionate both elements and isotopes, operating either on the early planets themselves or in large preplanetary planetesimals.

Published
1992

26. Mars - Epochal climate change and volatile history

Author

Fanale, Fraser P, Postawko, Susan E, Pollack, James B, Carr, Michael H, and Pepin, Robert O

Subjects
Lunar And Planetary Exploration
Abstract

The epochal climate change and volatile history of Mars are examined, with special attention given to evidence for and mechanisms of long-term climate change. Long-term climate change on Mars is indicated most directly by the presence, age, and distribution of the valley networks. They were almost certainly formed by running water, but it seems more likely that they were formed by groundwater sapping than by rainfall. It is argued to be physically plausible that a higher early intensity of surface insolation caused by a CO2 greenhouse effect could have overcompensated for an early weak sun and raised temperatures to the freezing point near the equator under favorable conditions of obliquity and eccentricity. This could account for the morphological changes.

Published
1992

27. Origin of noble gases in the terrestrial planets

Author

Pepin, Robert O

Subjects
Lunar And Planetary Exploration
Abstract

Current models of the origin of noble gases in the terrestrial planets are reviewed. Primary solar system volatile sources and processes are examined along with the current data base on noble gases and its applications to evolutionary processing. Models of atmospheric evolution by hydrodynamic escape are addressed.

Published
1992

28. The 1990 update to strategy for exploration of the inner planets

Author

Esposito, Larry W, Pepin, Robert O, Cheng, Andrew F, Jakosky, Bruce M, Lunine, Jonathan I, Mcfadden, Lucy-Ann, Mckay, Christopher P, Mckinnon, William B, Muhleman, Duane O, and Nicholson, Philip

Subjects
Astronautics (General)
Abstract

The Committee on Planetary and Lunar Exploration (COMPLEX) has undertaken to review and revise the 1978 report Strategy for Exploration of the Inner Planets, 1977-1987. The committee has found the 1978 report to be generally still pertinent. COMPLEX therefore issues its new report in the form of an update. The committee reaffirms the basic objectives for exploration of the planets: to determine the present state of the planets and their satellites, to understand the processes active now and at the origin of the solar system, and to understand planetary evolution, including appearance of life and its relation to the chemical history of the solar system.

Published
1990

29. Primordial argon isotope fractionation in the atmosphere of Mars measured by the SAM instrument on Curiosity and implications for atmospheric loss

Author

Atreya, Sushil K., Trainer, Melissa G., Franz, Heather B., Wong, Michael H., Manning, Heidi L. K., Malespin, Charles A., Mahaffy, Paul R., Conrad, Pamela G., Brunner, Anna E., Leshin, Laurie A., Jones, John H., Webster, Christopher R., Owen, Tobias C., Pepin, Robert O., and Navarro-González, R.

Abstract

The quadrupole mass spectrometer of the Sample Analysis at Mars (SAM) instrument on Curiosity rover has made the first high-precision measurement of the nonradiogenic argon isotope ratio in the atmosphere of Mars. The resulting value of ³⁶Ar/³⁸Ar = 4.2 ± 0.1 is highly significant for it provides excellent evidence that “Mars” meteorites are indeed of Martian origin, and it points to a significant loss of argon of at least 50% and perhaps as high as 85–95% from the atmosphere of Mars in the past 4 billion years. Taken together with the isotopic fractionations in N, C, H, and O measured by SAM, these results imply a substantial loss of atmosphere from Mars in the posthydrodynamic escape phase.

Published
2013

30. Isotope ratios of H, C, and O in CO₂ and H₂O of the martian atmosphere

Author

Webster, Chris R, Mahaffy, Paul R, Flesch, Gregory J, Niles, Paul B, Jones, John H, Leshin, Laurie A, Atreya, Sushil K, Stern, Jennifer C, Christensen, Lance E, Owen, Tobias, Franz, Heather, Pepin, Robert O, Steele, Andrew and the MSL Science Team, Achilles, Cherie, Agard, Christophe, Alves Verdasca, José Alexandre, Anderson, Robert, Anderson, Ryan, Archer, Doug, Armiens-Aparicio, Carlos, Arvidson, Ray, Atlaskin, Evgeny, Aubrey, Andrew, Baker, Burt, Baker, Michael, Balic-Zunic, Tonci, Baratoux, David, Baroukh, Julien, Barraclough, Bruce, Bean, Keri, Beegle, Luther, Behar, Alberto, Bell, James, Bender, Steve, Benna, Mehdi, Bentz, Jennifer, Berger, Gilles, Berger, Jeff, Berman, Daniel, Bish, David, Blake, David F, Blanco Avalos, Juan J, Blaney, Diana, Blank, Jen, Blau, Hannah, Bleacher, Lora, Boehm, Eckart, Botta, Oliver, Böttcher, Stephan, Boucher, Thomas, Bower, Hannah, Boyd, Nick, Boynton, Bill, Breves, Elly, Bridges, John, Bridges, Nathan, Brinckerhoff, William, Brinza, David, Bristow, Thomas, Brunet, Claude, Brunner, Anna, Brunner, Will, Buch, Arnaud, Bullock, Mark, Burmeister, Sönke, Cabane, Michel, Calef, Fred, Cameron, James, Campbell, John, Cantor, Bruce, Caplinger, Michael, Caride Rodríguez, Javier, Carmosino, Marco, Carrasco Blázquez, Isaías, Charpentier, Antoine, Chipera, Steve, Choi, David, Clark, Benton, Clegg, Sam, Cleghorn, Timothy, Cloutis, Ed, Cody, George, Coll, Patrice, Conrad, Pamela, Coscia, David, Cousin, Agnès, Cremers, David, Crisp, Joy, Cros, Alain, Cucinotta, Frank, d'Uston, Claude, Davis, Scott, Day, Mackenzie, de la Torre Juarez, Manuel, DeFlores, Lauren, DeLapp, Dorothea, DeMarines, Julia, DesMarais, David, Dietrich, William, Dingler, Robert, Donny, Christophe, Downs, Bob, Drake, Darrell, Dromart, Gilles, Dupont, Audrey, Duston, Brian, Dworkin, Jason, Dyar, M Darby, Edgar, Lauren, Edgett, Kenneth, Edwards, Christopher, Edwards, Laurence, Ehlmann, Bethany, Ehresmann, Bent, Eigenbrode, Jen, Elliott, Beverley, Elliott, Harvey, Ewing, Ryan, Fabre, Cécile, Fairén, Alberto, Farley, Ken, Farmer, Jack, Fassett, Caleb, Favot, Laurent, Fay, Donald, Fedosov, Fedor, Feldman, Jason, Feldman, Sabrina, Fisk, Marty, Fitzgibbon, Mike, Floyd, Melissa, Flückiger, Lorenzo, Forni, Olivier, Fraeman, Abby, Francis, Raymond, François, Pascaline, Freissinet, Caroline, French, Katherine Louise, Frydenvang, Jens, Gaboriaud, Alain, Gailhanou, Marc, Garvin, James, Gasnault, Olivier, Geffroy, Claude, Gellert, Ralf, Genzer, Maria, Glavin, Daniel, Godber, Austin, Goesmann, Fred, Goetz, Walter, Golovin, Dmitry, Gómez Gómez, Felipe, Gómez-Elvira, Javier, Gondet, Brigitte, Gordon, Suzanne, Gorevan, Stephen, Grant, John, Griffes, Jennifer, Grinspoon, David, Grotzinger, John, Guillemot, Philippe, Guo, Jingnan, Gupta, Sanjeev, Guzewich, Scott, Haberle, Robert, Halleaux, Douglas, Hallet, Bernard, Hamilton, Vicky, Hardgrove, Craig, Harker, David, Harpold, Daniel, Harri, Ari-Matti, Harshman, Karl, Hassler, Donald, Haukka, Harri, Hayes, Alex, Herkenhoff, Ken, Herrera, Paul, Hettrich, Sebastian, Heydari, Ezat, Hipkin, Victoria, Hoehler, Tori, Hollingsworth, Jeff, Hudgins, Judy, Huntress, Wesley, Hurowitz, Joel, Hviid, Stubbe, Iagnemma, Karl, Indyk, Steve, Israël, Guy, Jackson, Ryan, Jacob, Samantha, Jakosky, Bruce, Jensen, Elsa, Jensen, Jaqueline Kløvgaard, Johnson, Jeffrey, Johnson, Micah, Johnstone, Steve, Jones, Andrea, Joseph, Jonathan, Jun, Insoo, Kah, Linda, Kahanpää, Henrik, Kahre, Melinda, Karpushkina, Natalya, Kasprzak, Wayne, Kauhanen, Janne, Keely, Leslie, Kemppinen, Osku, Keymeulen, Didier, Kim, Myung-Hee, Kinch, Kjartan, King, Penny, Kirkland, Laurel, Kocurek, Gary, Koefoed, Asmus, Köhler, Jan, Kortmann, Onno, Kozyrev, Alexander, Krezoski, Jill, Krysak, Daniel, Kuzmin, Ruslan, Lacour, Jean Luc, Lafaille, Vivian, Langevin, Yves, Lanza, Nina, Lasue, Jeremie, Le Mouélic, Stéphane, Lee, Ella Mae, Lee, Qiu-Mei, Lees, David, Lefavor, Matthew, Lemmon, Mark, Lepinette Malvitte, Alain, Léveillé, Richard, Lewin-Carpintier, Éric, Lewis, Kevin, Li, Shuai, Lipkaman, Leslie, Little, Cynthia, Litvak, Maxim, Lorigny, Eric, Lugmair, Guenter, Lundberg, Angela, Lyness, Eric, Madsen, Morten, Maki, Justin, Malakhov, Alexey, Malespin, Charles, Malin, Michael, Mangold, Nicolas, Manhes, Gérard, Manning, Heidi, Marchand, Geneviève, Marín Jiménez, Mercedes, Martín García, César, Martin, Dave, Martin, Mildred, Martínez-Frías, Jesús, Martín-Soler, Javier, Martín-Torres, F Javier, Mauchien, Patrick, Maurice, Sylvestre, McAdam, Amy, McCartney, Elaina, McConnochie, Timothy, McCullough, Emily, McEwan, Ian, McKay, Christopher, McLennan, Scott, McNair, Sean, Melikechi, Noureddine, Meslin, Pierre-Yves, Meyer, Michael, Mezzacappa, Alissa, Miller, Hayden, Miller, Kristen, Milliken, Ralph, Ming, Douglas, Minitti, Michelle, Mischna, Michael, Mitrofanov, Igor, Moersch, Jeff, Mokrousov, Maxim, Molina Jurado, Antonio, Moores, John, Mora-Sotomayor, Luis, Morookian, John Michael, Morris, Richard, Morrison, Shaunna, Mueller-Mellin, Reinhold, Muller, Jan-Peter, Muñoz Caro, Guillermo, Nachon, Marion, Navarro López, Sara, Navarro-González, Rafael, Nealson, Kenneth, Nefian, Ara, Nelson, Tony, Newcombe, Megan, Newman, Claire, Newsom, Horton, Nikiforov, Sergey, Nixon, Brian, Noe Dobrea, Eldar, Nolan, Thomas, Oehler, Dorothy, Ollila, Ann, Olson, Timothy, de Pablo Hernández, Miguel Ángel, Paillet, Alexis, Pallier, Etienne, Palucis, Marisa, Parker, Timothy, Parot, Yann, Patel, Kiran, Paton, Mark, Paulsen, Gale, Pavlov, Alex, Pavri, Betina, Peinado-González, Verónica, Peret, Laurent, Perez, Rene, Perrett, Glynis, Peterson, Joe, Pilorget, Cedric, Pinet, Patrick, Pla-García, Jorge, Plante, Ianik, Poitrasson, Franck, Polkko, Jouni, Popa, Radu, Posiolova, Liliya, Posner, Arik, Pradler, Irina, Prats, Benito, Prokhorov, Vasily, Purdy, Sharon Wilson, Raaen, Eric, Radziemski, Leon, Rafkin, Scot, Ramos, Miguel, Rampe, Elizabeth, Raulin, François, Ravine, Michael, Reitz, Günther, Rennó, Nilton, Rice, Melissa, Richardson, Mark, Robert, François, Robertson, Kevin, Rodriguez Manfredi, José Antonio, Romeral-Planelló, Julio J, Rowland, Scott, Rubin, David, Saccoccio, Muriel, Salamon, Andrew, Sandoval, Jennifer, Sanin, Anton, Sans Fuentes, Sara Alejandra, Saper, Lee, Sarrazin, Philippe, Sautter, Violaine, Savijärvi, Hannu, Schieber, Juergen, Schmidt, Mariek, Schmidt, Walter, Scholes, Daniel, Schoppers, Marcel, Schröder, Susanne, Schwenzer, Susanne, Sebastian Martinez, Eduardo, Sengstacken, Aaron, Shterts, Ruslan, Siebach, Kirsten, Siili, Tero, Simmonds, Jeff, Sirven, Jean-Baptiste, Slavney, Susie, Sletten, Ronald, Smith, Michael, Sobrón Sánchez, Pablo, Spanovich, Nicole, Spray, John, Squyres, Steven, Stack, Katie, Stalport, Fabien, Stein, Thomas, Stewart, Noel, Stipp, Susan Louise Svane, Stoiber, Kevin, Stolper, Ed, Sucharski, Bob, Sullivan, Rob, Summons, Roger, Sumner, Dawn, Sun, Vivian, Supulver, Kimberley, Sutter, Brad, Szopa, Cyril, Tan, Florence, Tate, Christopher, Teinturier, Samuel, ten Kate, Inge, Thomas, Peter, Thompson, Lucy, Tokar, Robert, Toplis, Mike, Torres Redondo, Josefina, Trainer, Melissa, Treiman, Allan, Tretyakov, Vladislav, Urqui-O'Callaghan, Roser, Van Beek, Jason, Van Beek, Tessa, VanBommel, Scott, Vaniman, David, Varenikov, Alexey, Vasavada, Ashwin, Vasconcelos, Paulo, Vicenzi, Edward, Vostrukhin, Andrey, Voytek, Mary, Wadhwa, Meenakshi, Ward, Jennifer, Weigle, Eddie, Wellington, Danika, Westall, Frances, Wiens, Roger Craig, Wilhelm, Mary Beth, Williams, Amy, Williams, Joshua, Williams, Rebecca, Williams, Richard B, Wilson, Mike, Wimmer-Schweingruber, Robert, Wolff, Mike, Wong, Mike, Wray, James, Wu, Megan, Yana, Charles, Yen, Albert, Yingst, Aileen, Zeitlin, Cary, Zimdar, Robert, and Zorzano Mier, María-Paz

Subjects
isotope ratios, MSL-Radiation, Mars
Published
2013

31. Comet 81P/Wild 2 Under a Microscope

Author

Brownlee, Don, Tsou, Peter, Aleon, Jerome, Alexander, Conel M. O'D., Araki, Tohru, Bajt, Sasa, Baratta, Giuseppe A., Bastien, Ron, Bland, Phil, Bleuet, Pierre, Borg, Janet, Bradley, John P., Brearley, Adrian, Brenker, F., Brennan, Sean, Bridges, John C., Browning, Nigel D., Brucato, John R., Bullock, E., Burchell, Mark J., Busemann, Henner, Butterworth, Anna, Chaussidon, Marc, Cheuvront, Allan, Chi, Miaofang, Cintala, Mark J., Clark, B. C., Clemett, Simon J., Cody, George, Colangeli, Luigi, Cooper, George, Cordier, Patrick, Daghlian, C., Dai, Zurong, D'Hendecourt, Louis, Djouadi, Zahia, Dominguez, Gerardo, Duxbury, Tom, Dworkin, Jason P., Ebel, Denton S., Economou, Thanasis E., Fakra, Sirine, Fairey, Sam A. J., Fallon, Stewart, Ferrini, Gianluca, Ferroir, T., Fleckenstein, Holger, Floss, Christine, Flynn, George, Franchi, Ian A., Fries, Marc, Gainsforth, Z., Gallien, J.-P., Genge, Matt, Gilles, Mary K., Gillet, Philipe, Gilmour, Jamie, Glavin, Daniel P., Gounelle, Matthieu, Grady, Monica M., Graham, Giles A., Grant, P. G., Green, Simon F., Grossemy, Faustine, Grossman, Lawrence, Grossman, Jeffrey N., Guan, Yunbin, Hagiya, Kenji, Harvey, Ralph, Heck, Philipp, Herzog, Gregory F., Hoppe, Peter, Horz, Friedrich, Huth, Joachim, Hutcheon, Ian D., Ignatyev, Konstantin, Ishii, Hope, Ito, Motoo, Jacob, Damien, Jacobsen, Chris, Jacobsen, Stein, Jones, Steven, Joswiak, David, Jurewicz, Amy, Kearsley, Anton T., Keller, Lindsay P., Khodja, H., Kilcoyne, A. L. David, Kissel, Jochen, Krot, Alexander, Langenhorst, Falko, Lanzirotti, Antonio, Le, Loan, Leshin, Laurie A., Leitner, J., Lemelle, L., Leroux, Hugues, Liu, Ming-Chang, Luening, K., Lyon, Ian, MacPherson, Glen, Marcus, Matthew A., Marhas, Kuljeet, Marty, Bernard, Matrajt, Graciela, McKeegan, Kevin, Meibom, Anders, Mennella, Vito, Messenger, Keiko, Messenger, Scott, Mikouchi, Takashi, Mostefaoui, Smail, Nakamura, Tomoki, Nakano, T., Newville, M., ittler, Larry R., Ohnishi, Ichiro, Ohsumi, Kazumasa, 奥平, 恭子, Papanastassiou, Dimitri A., Palma, Russ, Palumbo, Maria E., Pepin, Robert O., Perkins, David, Perronnet, Murielle, Pianetta, P., Rao, William, Rietmeijer, Frans J. M., Robert, Francois, Rost, D., Rotundi, Alessandra, Ryan, Robert, Sandford, Scott A., Schwandt, Craig S., See, Thomas H., Schlutter, Dennis, Sheffield-Parker, J., Simionovici, Alexandre, Simon, Steven, Sitnitsky, I., Snead, Christopher J., Spencer, Maegan K., Stadermann, Frank J., Steele, Andrew, Stephan, Thomas, Stroud, Rhonda, Susini, Jean, Sutton, S. R., Suzuki, Y., Taheri, Mitra, Taylor, Susan, Teslich, Nick, Tomeoka, Kazu, Tomioka, Naotaka, Toppani, Alice, Trigo-Rodriguez, Josep M., Troadec, David, Tsuchiyama, Akira, Tuzzolino, Anthony J., Tyliszczak, Tolek, Uesugi, K., Velbel, Michael, Vellenga, Joe, Vicenzi, E., Vincze, L., Warren, Jack, Weber, Iris, Weisberg, Mike, Westphal, Andrew J., Wirick, Sue, Wooden, Diane, Wopenka, Brigitte, Wozniakiewicz, Penelope, Wright, Ian, Yabuta, Hikaru, 矢野, 創, Young, Edward D., Zare, Richard N., Zega, Thomas, Ziegler, Karen, Zimmerman, Laurent, Zinner, Ernst, Zolensky, Michael, Okudaira, Kyoko, Yano, Hajime, Brownlee, Don, Tsou, Peter, Aleon, Jerome, Alexander, Conel M. O'D., Araki, Tohru, Bajt, Sasa, Baratta, Giuseppe A., Bastien, Ron, Bland, Phil, Bleuet, Pierre, Borg, Janet, Bradley, John P., Brearley, Adrian, Brenker, F., Brennan, Sean, Bridges, John C., Browning, Nigel D., Brucato, John R., Bullock, E., Burchell, Mark J., Busemann, Henner, Butterworth, Anna, Chaussidon, Marc, Cheuvront, Allan, Chi, Miaofang, Cintala, Mark J., Clark, B. C., Clemett, Simon J., Cody, George, Colangeli, Luigi, Cooper, George, Cordier, Patrick, Daghlian, C., Dai, Zurong, D'Hendecourt, Louis, Djouadi, Zahia, Dominguez, Gerardo, Duxbury, Tom, Dworkin, Jason P., Ebel, Denton S., Economou, Thanasis E., Fakra, Sirine, Fairey, Sam A. J., Fallon, Stewart, Ferrini, Gianluca, Ferroir, T., Fleckenstein, Holger, Floss, Christine, Flynn, George, Franchi, Ian A., Fries, Marc, Gainsforth, Z., Gallien, J.-P., Genge, Matt, Gilles, Mary K., Gillet, Philipe, Gilmour, Jamie, Glavin, Daniel P., Gounelle, Matthieu, Grady, Monica M., Graham, Giles A., Grant, P. G., Green, Simon F., Grossemy, Faustine, Grossman, Lawrence, Grossman, Jeffrey N., Guan, Yunbin, Hagiya, Kenji, Harvey, Ralph, Heck, Philipp, Herzog, Gregory F., Hoppe, Peter, Horz, Friedrich, Huth, Joachim, Hutcheon, Ian D., Ignatyev, Konstantin, Ishii, Hope, Ito, Motoo, Jacob, Damien, Jacobsen, Chris, Jacobsen, Stein, Jones, Steven, Joswiak, David, Jurewicz, Amy, Kearsley, Anton T., Keller, Lindsay P., Khodja, H., Kilcoyne, A. L. David, Kissel, Jochen, Krot, Alexander, Langenhorst, Falko, Lanzirotti, Antonio, Le, Loan, Leshin, Laurie A., Leitner, J., Lemelle, L., Leroux, Hugues, Liu, Ming-Chang, Luening, K., Lyon, Ian, MacPherson, Glen, Marcus, Matthew A., Marhas, Kuljeet, Marty, Bernard, Matrajt, Graciela, McKeegan, Kevin, Meibom, Anders, Mennella, Vito, Messenger, Keiko, Messenger, Scott, Mikouchi, Takashi, Mostefaoui, Smail, Nakamura, Tomoki, Nakano, T., Newville, M., ittler, Larry R., Ohnishi, Ichiro, Ohsumi, Kazumasa, 奥平, 恭子, Papanastassiou, Dimitri A., Palma, Russ, Palumbo, Maria E., Pepin, Robert O., Perkins, David, Perronnet, Murielle, Pianetta, P., Rao, William, Rietmeijer, Frans J. M., Robert, Francois, Rost, D., Rotundi, Alessandra, Ryan, Robert, Sandford, Scott A., Schwandt, Craig S., See, Thomas H., Schlutter, Dennis, Sheffield-Parker, J., Simionovici, Alexandre, Simon, Steven, Sitnitsky, I., Snead, Christopher J., Spencer, Maegan K., Stadermann, Frank J., Steele, Andrew, Stephan, Thomas, Stroud, Rhonda, Susini, Jean, Sutton, S. R., Suzuki, Y., Taheri, Mitra, Taylor, Susan, Teslich, Nick, Tomeoka, Kazu, Tomioka, Naotaka, Toppani, Alice, Trigo-Rodriguez, Josep M., Troadec, David, Tsuchiyama, Akira, Tuzzolino, Anthony J., Tyliszczak, Tolek, Uesugi, K., Velbel, Michael, Vellenga, Joe, Vicenzi, E., Vincze, L., Warren, Jack, Weber, Iris, Weisberg, Mike, Westphal, Andrew J., Wirick, Sue, Wooden, Diane, Wopenka, Brigitte, Wozniakiewicz, Penelope, Wright, Ian, Yabuta, Hikaru, 矢野, 創, Young, Edward D., Zare, Richard N., Zega, Thomas, Ziegler, Karen, Zimmerman, Laurent, Zinner, Ernst, Zolensky, Michael, Okudaira, Kyoko, and Yano, Hajime

Abstract

著者人数: 183名

Published
2015

34. MARS

Author

FANALE, FRASER P., primary, POSTAWKO, SUSAN E., additional, POLLACK, JAMES B., additional, CARR, MICHAEL H., additional, and PEPIN, ROBERT O., additional

Full Text
View/download PDF

35. Isotopes of nitrogen on Mars: Atmospheric measurements by Curiosity's mass spectrometer

Author

Wong, Michael H., primary, Atreya, Sushil K., additional, Mahaffy, Paul N., additional, Franz, Heather B., additional, Malespin, Charles, additional, Trainer, Melissa G., additional, Stern, Jennifer C., additional, Conrad, Pamela G., additional, Manning, Heidi L. K., additional, Pepin, Robert O., additional, Becker, Richard H., additional, McKay, Christopher P., additional, Owen, Tobias C., additional, Navarro‐González, Rafael, additional, Jones, John H., additional, Jakosky, Bruce M., additional, and Steele, Andrew, additional

Published
2013
Full Text
View/download PDF

36. Primordial argon isotope fractionation in the atmosphere of Mars measured by the SAM instrument on Curiosity and implications for atmospheric loss

Author

Atreya, Sushil K., primary, Trainer, Melissa G., additional, Franz, Heather B., additional, Wong, Michael H., additional, Manning, Heidi L. K., additional, Malespin, Charles A., additional, Mahaffy, Paul R., additional, Conrad, Pamela G., additional, Brunner, Anna E., additional, Leshin, Laurie A., additional, Jones, John H., additional, Webster, Christopher R., additional, Owen, Tobias C., additional, Pepin, Robert O., additional, and Navarro‐González, R., additional

Published
2013
Full Text
View/download PDF

39. Long-term changes in solar wind elemental and isotopic ratios - A comparison of two lunar ilmenites of different antiquities

Author

Becker, Richard H and Pepin, Robert O

Subjects
Lunar And Planetary Exploration
Abstract

The solar wind components in two lunar ilmenites are examined. The noble gas and nitrogen elemental and isotopic abundances of lunar regolith breccia sample 79035, assumed to have been exposed to solar winds more than 2 Ga ago, are analyzed using stepwise oxidation and pyrolysis. This sample is compared with the data of Frick et al. (1988) for soil sample 71501, recently exposed to solar winds. It is observed that the two elements differ in terms of xenon abundance, helium and neon isotopic rates, and He/Ar elemental ratios. It is concluded that there have been isotopic and elemental abundance changes in solar wind composition over time.

Published
1989
Full Text
View/download PDF

40. Solar wind record in the lunar regolith - Nitrogen and noble gases

Author

Frick, Urs, Becker, Richard H, and Pepin, Robert O

Subjects
Lunar And Planetary Exploration
Abstract

The measured elemental and isotopic abundances of noble gases and nitrogen have been measured in five different samples of lunar regolith material. It was found noble gases liberated by chemical attack on grain surfaces from two of the samples were solar. The Ne-20/Ne-22 ratio in the two grain surface reservoir is 13.5-13.6, compared to the average value of 13.7 + or - 0.3 measured in the Apollo solar wind collection foils (Gochsler and Geiss, 1977). It is suggested that the noble gases in grain interiors have suffered severe mass fractionation. The surface-sited N/Ar in an ilmenite sample exceeds the predicted solar ratio by more than a factor of 10. It is concluded that the solar system abundances of Cameron (1982) describe the elemental composition of the noble gases in the solar wind very well.

Published
1988

41. Mass fractionation in hydrodynamic escape

Author

Hunten, Donald M, Pepin, Robert O, and Walker, James C. G

Subjects
Lunar And Planetary Exploration
Abstract

In mass fractionation during the hydrodynamic escape of gases from an inner planet's atmosphere, the readier escape of light gases generates a linear or concave downward line in a plotting of the log of remaining inventory against atomic mass. Just as such an episode of hydrodynamic escape during Mars' early history could have led to the mass-dependent depletion of the noble gases that has been noted in the Martian atmosphere, in the event that the Martian atmosphere was initially hydrogen-rich, an early earth-history episode may have resulted in a mass-dependent fractionation of the xenon isotopes.

Published
1987
Full Text
View/download PDF

50. Nitrogen and light noble gases in Shergotty

Author

Becker, Richard H and Pepin, Robert O

Abstract

Two samples of Shergotty and one of EETA 79001 lithology A have been analyzed for nitrogen and light noble gases. Nitrogen yields are of the order of one ppm, with isotopic ratios within a few per mil of the terrestrial atmospheric composition after correction for spallogenic nitrogen. The nitrogen data do not indicate the presence of any significant amounts of the high-δ15N component seen in EETA 79001 glass, nor do they show the isotopically light component, with δ15N of about −35%o, reported previously for Shergotty. The possibility that these components are present but masked by variations in the ArNratio of the light component cannot be excluded.

Published
1986
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results