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BISCHO,93A:Bischoff A., Palme H., Schultz L., Weber H.W. and Spettel B.(1993) Acfer 182 and paired samples, an iron-rich carbonaceous chondrite: Similarities with ALH85085 and relationship to CR chondrites.Geochim. Cosmochim. Acta 57, 2631-2648.
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BISCHO,93B:Bischoff A., Palme H., Ash R.D., Clayton R.N., Schultz L., Herpers U., Stoeffler D., Grady M.M., Pillinger C.T., Spettel B., Weber H., Grund T., Endress M. and Weber D. (1993) Paired Renazzo-type (CR) carbonaceous chondrites from the Sahara.Geochim. Cosmochim. Acta 57, 1587-1603.
BISCHO,94: Bischoff A., Geiger T., Palme H., Spettel B., Schultz L., Scherer P., Loeken Th., Bland P., Clayton R.N., Mayeda T.K., Herpers U., Meltzow B., Michel R. and Dittrich-Hannen B.(1994) Acfer 217 - a new member of Rumuruti chondrite group (R).Meteoritics 29, 264-274.
BISCHO,96: Bischoff A., Gerel O., Buchwald V.F., Spettel B., Loeken T., Schultz L., Weber H.W., Schlueter J., Baljinnyam L., Borchuluun D., Byambaa C. and Garamjav D. (1996) Meteorites from Mongolia.Meteoritics & Planet. Sci. 31, 152 - 157.
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BONINO,01: Bonino G., Bhandari N., Murty S.V.S., Mahajan R.R., Suthar K.M., Shukla A.D., Shukla P.N., Cini Castagnoli G., and Taricco C. (2001) Solar and galactic cosmic-ray records of the Fermo (H) chondrite regolith breccia.Meteorit. Planet. Sci. 36, 831-839.
BUNCH,79: Bunch T.E., Chang S., Frick U., Neil J. and Moreland G. (1979) Cabonaceous Chondrites - I. Characterization and Significance of Carbonaceous Chondrite (CM) Xenoliths in the Jodzie Howardite. Geochim. Cosmochim. Acta 43, 1727-1742.
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CAFFEE,00: Caffee M.W., Nishiizumi K., Matsumoto Y., Matsuda J., Komura K., and Nakamura N. (2000) Noble gases and cosmogenic radionuclides in the Kobe CK meteorite.Meteorit. Planet. Sci. 35, A37-A38.
CASANO,90: Casanova I., Keil K., Wieler R., San Miguel A., King E.A.(1990) Origin and history of chondrite regolith, fragmental and impact melt breccias from Spain. Meteoritics 25, 127-135.
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CRABB,81: Crabb J. and Anders E. (1981) Noble Gases in E-Chondrites.Geochim. Cosmochim. Acta 45, 2443-2464.
CRABB,82: In Honda,82.CRABB,82A:Crabb J. and Anders E. (1982) On the Siting of Noble Gases in E-Chondrites.
Geochim. Cosmochim. Acta 46, 2351-2362.CRABB,83: Crabb J. (1983) On the Siting of Noble Gases in Silicate Inclusions of the El Taco Iron Meteorite.
LPSC 14,134-135.CRESSY,76: Cressy P.J. and Bogard D.D. (1976) On the Calculation of Cosmic-Ray Exposure Ages of Stone
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DANG,84: Dang Vu Minh, Ivanov A.V. and Shukolyukov Y.A. (1984) Noble Gases in the Kaidun Meteorite. LPSC 15, 554-555.
DELISL,89: Delisle G., Schultz L., Spettel B., Weber H.W., Wlotzka F., Hoefle H.-C., Thierbach R., Vogt S., Herpers U., Bonani G., Suter M. and Woelfli W. (1989) Meteorite Finds in the Frontier Mountain Range in Northern Victoria Land, Antarctica.Geol. Jb. E38, 253-283.
DESROU,96: Desrousseaux A., Doukhan J.C., Fiéni C., Perron C., Jeannot J.P., Lavielle B., Renaud D., Van Duysen J.C., Caffee M. and Nishiizumi K. (1996) A new iron meteorite from France.
Meteorit. Planet. Sci. 31, A36-A37.DIXON,03: Dixon E.T., Bogard D.D., and Garrison D.H. (2003) 39Ar-40Ar chronology of R chondrites.
Meteorit. Planet. Sci. 38, 431-455.DOMINI,78: Dominik B., Jessberger E.K., Staudacher Th., Nagel K. and El Goresy A. (1978) A New Type of
White Inclusion in Allende: Petrography, Mineral Chemistry, 40-Ar/39-Ar Ages and Genetic Implications. Proc. Lunar Planet. Sci. Conf. 9th, 1249-1266.
DOWNIN,82: Downing R.G. and Manuel O.K. Composition of the Noble Gases in Canyon Diablo. Preprint 1982.
DREIBU, 96: Dreibus G., Spettel B., Wlotzka F., Jochum K.P., Schultz L., Weber H.W. and Wänke H. (1996) Chemistry, Petrology, and Noble Gases of Basaltic Lunar Meteorite QUE 94281.
Meteorit. Planet. Sci. 31, A38-A39. See also BISCHO,98.DREIBU, 96A: Dreibus G., Spettel B., Wlotzka F., Schultz L., Weber H.W., Jochum K.P. and Wänke H. (1996) QUE 94201: An Unusual Martian Basalt.
Meteorit. Planet. Sci. 31, A39-A40.EBERHA,60: Eberhardt P. and Eberhardt A. (1960) Neon und andere Edelgase in Steinmeteoriten.
Helv. Phys.A. 33, 593-594.EBERHA,60A: Eberhardt P. and Hess D.C. (1960) Helium in Stone Meteorites.
Astrophys. J. 131, 38-46.EBERHA,61: Eberhardt P. and Eberhardt A. (1961) Ne in some Stone Meteorites.
Z. Naturforsch. 16a, 236-238.EBERHA,65: Eberhardt P., Eugster O. and Geiss J. (1965) Radiation Ages of Aubrites.
J. Geophys. Res. 70, 4427-4434.EBERHA,65A: Eberhardt P., Geiss J. and Groegler N. (1965) Further Evidence on the Origin of Trapped
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EBERHA,66: Eberhardt P., Eugster O., Geiss J. and Marti K. (1966) Rare Gas Measurements in 30 Stone Meteorites. Z. Naturforsch. 21a, 414-426.
EBERHA,66A: Eberhardt P., Geiss J. and Groegler N. (1966) Distribution of Rare Gases in the Pyroxene and Feldspat of the Khor Temiki Meteorite.Earth Planet. Sci. Lett. 1, 7-12.
EBERHA,69: Eberhardt P., Geiss J. and Graf H. (1969) (Quoted in EUGSTE,69) ).EBERHA,69A: Eberhardt P., Geiss J. and Graf H. (1969) (Quoted in MARTI,69).EBERHA,74: Eberhardt P. (1974) A Neon-E-Rich Phase in the Orgueil Carbonaceous Chondrite.
Earth Planet. Sci. Lett. 24, 182-187.EBERHA,78: Eberhardt P. (1978) A Neon-A Rich Phase in Orgueil: Results of Stepwise Heating Experiments.
Proc. Lunar Planet. Sci. Conf. 9th, 1027-1051.EBERT,57: Ebert K.H. and Waenke H. (1957) Ueber die Einwirkung der Hoehenstrahlung auf Eisenmeteorite.
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ELRABA,74: Elrabaa, S.M., Daminova, A.M., Djakonova M.I., Kvascha, L.G., Levski, L.K. and Fisenko A.V. (1974) Resultate der Untersuchung des Chondriten Malakal (Sudan).
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Earth Planet. Sci. Lett. 65, 1-6.ENGLER,86: Englert P., Herpers U., Sarafin R., Padia J.T. and Rao N.N. (1986) Cosmic-Ray Records in the
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EUGSTE,69: Eugster O., Eberhardt P. and Geiss J. (1969) Isotopic Analyses of Kr and Xe in Fourteen Stone Meteorites.J. Geophys. Res. 74, 3874-3896.
EUGSTE,81: Eugster O., Groegler N., Eberhardt P., Geiss J. and Kiesl W. (1981) Double Drive Tube 74001/2: a Two-Stage Exposure Model Based on Noble Gases, Chemical Abundances and Predicted Production Rates. Proc. 12th Lunar Planet. Sci. Conf., 541-558.
EUGSTE,86: Eugster O., Geiss J., Kraehenbuehl U. and Niedermann S. (1986) Noble Gas Isotopic Composition, Cosmic-Ray Exposure History and Terrestrial Age of the Meteorite Allan Hills A81005 from the Moon.Earth Planet. Sci. Lett. 78, 139-147.
EUGSTE,87: Eugster O., Shen Ch., Beer J., Suter M., Woelfli W. and Wang D. (1987) Noble Gases, 81Kr-Kr Ages, and 10Be of Chondrites from China. Earth Planet. Sci. Lett. 84, 42-50.
EUGSTE,88: Eugster O. (1988) Cosmic-Ray Production Rates for 3He, 21Ne, 38Ar, 83Kr and 126Xe in Chondrites Based on 81Kr-Kr Exposure Ages. Geochim. Cosmochim. Acta 52, 1649-1662.
EUGSTE,88A:Eugster O., Michel Th. and Niedermann S. (1988) Guangnan (L6) and Ningqiang (CV3): Exposure Ages and Radiogenic Ages of Two Unusual Chondrites. Meteoritics 23, 25-27.
EUGSTE,88B:Eugster O. and Niedermann S.(1988) Noble Gases in Lunar Meteorites Yamato 82192 and 82193 and History of the Meteorites from the Moon. Earth Planet. Sci. Lett. 89, 15-27.
EUGSTE,89: Eugster O., Niedermann S., Burger M., Kraehenbuehl U., Weber H., Clayton R.N., Mayeda T.K. (1989) Preliminary Report on the Yamato-86032 Lunar Meteorite III: Ages, Noble Gas Isotopes, Oxygen Isotopes and Chemical Abundances. Mem. Natl. Inst. Polar. Proc. NIPR. Symp. Antarct. Meteorites 2, 25-35.
EUGSTE,89A:Eugster O., data given in GRAF,89.EUGSTE,90: Eugster O. (1990) Lunar meteorite MAC 88105: History derived from cosmic-ray produced and
solar wind trapped noble gases.LPSC 21, 337-338 see also EUGSTE,91A
EUGSTE,90A:Eugster O. and Niedermann S. (1990) Solar noble gases in the unique chondritic breccia Allan Hills 85085. Earth Planet. Sci. Lett 101, 139-147.
EUGSTE,91: Eugster O., Michel Th., and Niedermann S. (1991) Regolith history of lunar meteorites EET 87521 and Y-793274. LPSC 22, 357-358, und priv. com. See also: VOGT,93.
EUGSTE,91A:Eugster O., Beer J., Burger M., Finkel R.C., Hofmann H.J., Kraehenbuehl U., Michel Th., Synal H.A. and Woelfli W.(1991) History of the paired lunar meteorites MAC 88104 and MAC 88105 derived from noble gas isotopes, radionuclides and some chemical abundance. Geochim. Cosmochim. Acta 55, 3139-3148.
EUGSTE,91B:Eugster O., Michel Th. and Niedermann S.(1991) 244-Pu-Xe formation and gas retention age, exposure history, and terrestrial age of angrites LEW 86010 and LEW 87051: Comparison with Angra dos Reis. Geochim. Cosmochim. Acta 55, 2957-2964.
EUGSTE,92: Eugster O., Michel Th., and Niedermann S. (1992) Solar wind and cosmic ray exposure history of lunar meteorite YAMATO-793274.Proc. NIPR. Symp. Ant. Met. 5, 23-35.
EUGSTE,92A: Eugster O. (1992) Basaltic lunar meteorites Asuka-881757 and Yamato-793169; Comparison with EET 87521 and Yamato- 793274. Abstracts 17th Symp. Antarct. Meteorites, Tokyo, 208-210. see also THALMA,96.
EUGSTE,93: Eugster O., Michel Th., Niedermann S., Wang D. and Yi W. (1993) The record of cosmogenic, radiogenic, fissiogenic and trapped noble gases in recently recovered Chinese and other chondrites. Geochim. Cosmochim. Acta 57, 1115-1142.
EUGSTE,94: Eugster O. (1994) Orthopyroxenite ALH 84001: Ejection from Mars (?) 15 Ma.Meteoritics 29, 464.
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EUGSTE,95: Eugster O. and Michel Th.(1995) Common asteroid break-up events of eucrites, diogenites, and howardites and cosmic-ray production rates for noble gases in achondrites. Geochim. Cosmochim. Acta 59, 177-199.
EUGSTE,95A: Eugster O. and Weigel A.(1995) Multiple break-up of the angrite parent asteroid: Asuka 881371 and other angrites. Meteoritics 30, 504.
EUGSTE,96: Eugster O., Thalmann Ch., Albrecht A., Herzog G.F., Klein J. and Middleton R. (1996) Exposure History of Glass and Breccia Phases of Lunar Meteorite Elephant Moraine EET 87521. Meteoritics 31, 299-304.
EUGSTE,97: Eugster O., Polnau E. and Terribilini D. (1997) Ejection age of Martian Lherzolite Yamato 793605, Chassigny, and Shergotty and formation age of Shergotty maskelynite.Meteorit. Planet. Sci. 32, A40. See also EUGSTE,97B and TERRIB,98A
EUGSTE,97A: Eugster O., Weigel A. and Polnau E. (1997) Ejection times of Martian meteorites.Geochim. Cosmochim. Acta 61, 2749-2757 and LPSC 27 (1996) 345-346.
EUGSTE,97B: Eugster O. and Polnau E. (1997) Mars-Earth transfer time of Lherzolite Yamato-793605.Antarct. Meteorite Res. 10, 143-149.
EUGSTE,98: Eugster O., Polnau E. and Terribilini D. (1998) Cosmic ray- and gas retention ages of some special chondrites. Earth Planet. Sci. Lett. 164, 511-519. See also POLNAU,96
EUGSTE,98A: Eugster O., Eberhardt P., Thalmann Ch. and Weigel A. (1998) Neon-E in CM-2 chondrite LEW90500 and collisional history of CM-2 chondrites, Maralinga, and other CK chondrites.Geochim. Cosmochim. Acta 62, 2573-2582.
EUGSTE,00: Eugster O., Polnau E., Salerno E., and Terribilini D. (2000) Lunar surface exposure models for meteorites Elephant Moraine 96008 and Dar al Gani 262 from the Moon.Meteorit. Planet. Sci. 35, 1177-1181.
EUGSTE,01: Eugster O. and Lorenzetti S. (2001) Exposure history of some differentiated and lunar meteorites.Meteorit. Planet. Sci. 36, A54-A55.
EUGSTE,02: Eugster O., Busemann H., Lorenzetti S., and Terribilini D. (2002) Ejection ages of krypton-81-krypton-83 dating and pre-atmospheric sizes of martian meteorites.Meteorit. Planet. Sci. 37, 1345-1360.
EUGSTE,04: Eugster O. and Lorenzetti S. (2004) Acapulcoites and lodranites: A review of their characteristics; new data on four acapulcoites and twa unique achondrites.Geochim. Cosmochim. Acta (sbmitted).
EUGSTE,04A: Eugster O. and Lorenzetti S. (2004) priv. com.EVANS,82: Evans J.C., Reeves J.H., Rancitelli L.A. and Bogard D.D. (1982) Cosmogenic Nuclides in
Recently Fallen Meteorites: Evidance for Galactic Cosmic Ray Variations During the Period 1967-1978. J. Geophys. Res. 87, 5577-5591. See also LPSC XI, 91-92 (1980)
EVANS,86: Evans J.C., Reeves J.H. and Bogard D.D. (1986) Cosmogenic Radionuclides and Noble Gases in the Wethersfield (1982) Chondrite. Meteoritics 21, 243-250.
FAGAN,02: Fagan T.J., Taylor G.J., Keil K., Bunch T.E., Wittke J.H., Korotev R.L., Jolliff B.L. Gillis J.J., Haskin L.A., Jarosewich E., Clayton, R.N., Mayeda T.K., Fernandes V.A., Burgess R., Turner G., Eugster O., and Lorenzetti S. (2002) Northwest Africa 032: Product of lunar volcanism.Meteorit. Planet. Sci. 37, 371-394. See also LORENZ,04.
FAGAN,03: Fagan T.J., Taylor G.J., Keil K., Hicks T.L., Killgore M., Bunch T.E., Wittke J.H., Mittlefehldt D.W., Clayton R.N., Mayeda T.K., Eugster O., Lorenzetti S. and Norman M.D. (2003) Northwest Africa 773: Lunar origin and iron-enrichment trend.Meteorit. Planet. Sci. 38, 529-554. See also LORENZ,04.
FERKO,00: Ferko T.E., Schultz L., Franke L., Bogard D.D., Garrison D.H., Hutchison R. and Lipschutz M.E. (2000) Exposure history of the Mocs (L6) chondrite: A study of strewn field samples.Meteorit. Planet. Sci. 35, 1215-1227.
FERKO,02: Ferko, T.E., Wang M-S., Hillegonds D.J., Lipschutz M.E., Hutchison R., Franke L., Scherer P., Schultz L., Benoit P.H., Sears D.W.G., Singhvi A.K., and Bhandari N. (2002) The irradiation history of the Ghubara (L5) regolith breccia.Meteorit. Planet. Sci. 37, 311-327.
FINKEL,78: Finkel R.C., Kohl C.P., Marti K., Martinek B. and Rancitelli L. (1978) The Cosmic-Ray Record in the San Juan Capistrano Meteorite. Geochim. Cosmochim. Acta 42, 241-250.
FIREMA,57: Fireman E.L. and Schwarzer D. (1957) Measurement of 6-Li, 3-He and 3-H in Meteorites and Its Relation to Cosmic Radiation.Geochim. Cosmochim. Acta 11, 252-262.
FIREMA,68: Fireman E.L. and De Felice J. (1968) Rare Gases in Phases of the Deelfonteine Meteorite. J. Geophys. Res. 73, 6111-6116.
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FIREMA,70: Fireman E.L., De Felice J. and Norton E. (1970) Ages of the Allende Meteorite. Geochim. Cosmochim. Acta 34, 873-881.
FIREMA,70A: Fireman E.L. and Goebel R. (1970) Argon-37 and Argon-39 in Recently Fallen Meteorites and Cosmic-Ray Variation.J. Geophys. Res. 75, 2115-2124.
FIREMA,79: Fireman E.L., Rancitelli L.A. and Kirsten T. (1979) Terrestrial Ages of Four Allan Hills Meteorites. Consequences for Antarctic Ice. Science 203, 453-455.
FISENK,95: Fisenko A.V., Verkhovsky A.B. and Semenova L.F.(1995) Inert Gases in Interstellar Diamand in Yefremovka C3V chondrite.Geochem. Int. 32, 1-12.
FISENK,00: Fisenko A.V., Verchovsky A.B., Semjonova L.F., Ott U., Pillinger C. and Ivanov A.V. (2000) Presolar Diamond in CR and CI clusts of the Kaidun Meteorite.Lunar Planet. Sci. 31, Abstr.# 1834 (CD-ROM).
FISHER,60: Fisher D.E. and Schaeffer O.A. (1960) Cosmogenic Reactions in Iron Meteorites. Geochim. Cosmochim. Acta 20, 5-14.
FISHER,67: Fisher D.E. (1967) Cosmic Radiation Ages and Space Erosion, 2. The Iron Meteorites. In: Radioactive Dating and Methods of Low-Level Counting, (Ed. IAEA), Vienna, 269-279.
FISHER,81: Fisher D.E. (1981) A search for primordial atmospheric-like argon in an iron meteorite.Geochim. Cosmochim. Acta 45, 245-249.
FLEISC,70: Fleischer R.L., Lifshin E., Price P.B., Woods R.T., Carter R.W. and Fireman E.L. (1970) Schenectady Meteorite.Icarus 12, 402-406.
FODOR,76: Fodor R.V., Keil K., Wilkening L.L., Bogard D.D. and Gibson E.K. (1976) Origin and History of a Meteorite Parent-Body Regolith Breccia: Carbonaceous and Non-carbonaceous Lithic Fragments in the Abbot, New Mexico Chondrite. New Mexico Geological Society. Special Publication No. 6.
FOLCO,99: Folco L., Franchi I.A., Scherer P., Schultz L. and Pillinger C.T. (1999) Dar al Gani 489 basaltic Shergottite: A new find from the Sahara likely paired with Dar al Gani 467.Meteorit. Planet. Sci. 34, A36-A37. see also Meteorit. Planet. Sci. 35, 827-839 (2000)
FRANCH,99: Franchi I.A., Verchovsky A.B., Sexton A.S., Hough R.M., Boski T. and Pillinger C.T. (1999) The Ourique H4 gas-rich breccia and isotopically light graphitic carbon.Meteorit. Planet. Sci. 34, A43.
FRANCHI,02: Franchi I.A., Verchovsky A.B., and Greenwood R.C. (2002) Light element geochemistry of lunar meteorites.Antarctic Meteorites XXVII, 18-20.
FREDRI,85: Fredriksson K., Murty S.V.S. and Marti K. (1985) Some Chemical and Isotopic Observations in Chondrules. Meteoritics 20, 347-357.
FREUND,86: Freundel M., Schultz L. and Reedy R.C. (1986) Terrestrial 81-Kr-Kr Ages of Antarctic Meteorites. Geochim. Cosmochim. Acta 50, 2663-2673.
FRICK,77: Frick U. and Moniot R.K. (1977) Planetary Noble Gas Components in Orgueil. Proc. Lunar Sci. Conf. 8th, 229-261.
FRICK,77A: Frick U. (1977) Anomalous Krypton in the Allende Meteorite.Proc. Lunar Sci. Conf. 8th, 273-292.
FRICK,81: Frick U. and Pepin R.O. (1981) On the Distribution of Noble Gases in Allende: A Differential Oxidation Study. Earth Planet. Sci. Lett. 56, 45-63.
FUDALI,76: Fudali R.F. and Cressy P.J. (1976) Investigation of a New Stony Meteorite from Mauretania with Some Additional Data on Its Find Site: Aouelloul Crater.Earth Planet. Sci. Lett. 30, 262-268.
FUNKHO,67: Funkhouser J., Kirsten T. and Schaeffer O.A. (1967) Light and Heavy Rare Gases in Four Fragments of the St. Severin Meteorite. Earth Planet. Sci. Lett. 2, 185-190.
GANAPA,69: Ganapathy R. and Anders E. (1969) Ages of Calcium-Rich Achondrites-II. Howardites, Nakhlites and the Angra Dos Reis Angrite. Geochim. Cosmochim. Acta 33, 775-787.
GANAPA,70: Ganapathy R. (1970) Rare Gases from Serra De Mage Feldspar.Earth Planet. Sci. Lett. 8, 221-222.
GANAPA,70A: Ganapathy R. and Anders E. (1970) Identity of Some Ukrainian Meteorites. IN: Contributions to Modern Geochemistry and Analytical Chemistry (Ed by I.A. Tugarinov) Nauka, Moscow (1972).
GANAPA,73: Ganapathy R. and Anders E. (1973) Noble Gases in Eleven H-Chondrites. Geochim. Cosmochim. Acta 37, 359-362.
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GARRIS,92: Garrison D.H., Bogard D.D., Albrecht A.A., Vogt S., Herzog G.F., Klein J., Fink D., Dezfouly-Arjomandy B. and Middleton R.(1992) Cosmogenic nuclides in core samples of the Chico L6 chondrite:Evidence for irradiation under high shielding. Meteoritics 27 , 371-381.
GARRIS,95: Garrison D.H., Rao M.N. and Bogard D.D. (1995) Solar-proton produced neon in shergottite meteorites and implications for their origin. Meteoritics 30, 738-747.
GARRIS,98: D.H. Garrison and D.D. Bogard (1998) Isotopic composition of trapped and cosmogenic noble gases in several Martian meteorites.Meteorit. Planet. Sci. 33, 721-736.
GARRIS,00: Garrison D.H. and Bogard D.D. (2000) Cosmogenic and trapped noble gases in the Los Angeles martian meteorite.Meteorit. Planet. Sci. 35, A58.
GEISS,58: Geiss J., Oescher H. and Signer P. (1958) 3-He-3-H- Messungen an einem Steinmeteoriten. Helv. Phys. A. 31, 322-323.
GEISS,58A: Geiss J. and Hess D.C. (1958) Argon-Potassium Ages and the Isotopic Composition of Argon from Meteorites.Astrophys. J. 127, 224-236.
GEISS,60: Geiss J., Oeschger H. and Signer P. (1960) Radiation Ages of Chondrites. Z. Naturforsch. 15a, 1016-1017.
GEISS,60A: Geiss J., Hirt B. and Oeschger H. (1960) Tritium- und Helium-Gehalte in Meteoriten. Helv. Phys. A. 33, 590-593.
GENTNE,57: Gentner W. and Zaehringer J. (1957) Argon und Helium als Kernreaktionsprodukte in Meteoriten. Geochim. Cosmochim. Acta 11, 60-71.
GERLIN,56: Gerling E.K. and Levsky L.K. (1956) On the Origin of the Rare Gases in Stony Meteorites. Dokl. Akad. Nauk, SSSR 110, 750-753.
GHOSH,02: Ghosh S., Murty S.V.S., Shukla P.N., Shukla A.D., Mahajan R.R., Bhandari N., Pant N.C., Ghosh J.B., and Shome S. (2002) Fall, classification and cosmogenic records of the Sabrum (LL6) chondrite.Meteorit. Planet. Sci. 37, 439-448.
GIBSON,78: Gibson Jr.E.K. and Bogard D.D. (1978) Chemical Alteration of the Holbrook Chondrite Resulting from Terrestrial Weathering. Meteoritics 13, 277-289.
GILABE,99: Gilabert E., Lavielle B., Scorzelli R.B., Souza Avezedo I., Poupeau G. and Canut de Bon C. (1999) The Morro de la Mina H chondrite: A noble gas study and Mösbauer spectroscopy evidence for terrestrial alteration.Meteorit. Planet. Sci. 34, A43 and poster.
GOEBEL,59: Goebel K., Schmidlin P. and Zaehringer J. (1959) Das Tritium-Helium- und das Kalium-Argon-Alter des Meteoriten Ramsdorf.Z. Naturforsch. 14a, 996-998.
GOEBEL,76: Goebel R. (1976) Edelgase in Ureiliten. Dissertation Universitaet Mainz, pp. 127.
GOEBEL,77: Goebel R., Ott U. and Begemann F. (1977) On the Trapped Noble Gases in Ureilites. J. Geophys. Res. 83, 855-867.
GOEBEL,82: Goebel R., Begemann F. and Ott U. (1982) On Neutron-Induced and Other Noble Gases in Allende Inclusions. Geochim. Cosmochim. Acta 46, 1777-1792.
GOPALA,76: Gopalan K., Rao M.N., Suthar K.M. and Venkatesan T.R. (1976) Rare Gases in the Dhajala Stone Meteorite.Meteoritics 11, 290-291.
GOPALA,76A: Gopalan K. and Rao M.N. (1976) Rare Gases in Bansur, Udaipur and Madhipura Chondrites. Meteoritics 11, 131-136.
GOPALA,77: Gopalan K., Rao M.N., Suthar K.M. and Venkatesan T.R. (1977) Cosmogenic and Radiogenic Noble Gases in the Dhajala Chondrite. Earth Planet. Sci. Lett. 36, 341-346.
GOSWAM,97: Goswami J.N., SinhA N., Murty S.V.S., Mohaparta R.K. and Clement C.J. (1997) Nuclear tracksand light noble gases in Allan Hills 84001: Preatmospheric size, fall characteristics, cosmic-ray exposure duration and formation age.Meteorit. Planet. Sci. 32, 91-96.
GRADY,87: Grady M.M., Graham A.L., Barber D.J., Aylmer D., Kurat G., Ott U., Ntaflos T., Palme H. and Spettel B. (1987) Yamato-82042: An Unusual Carbonaceons Chondrite with CM Affinities. Mem. Natl. Inst. Polar. Res.(Tokyo), Spec. Issue 46, 162-178.
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GRADY,97: Grady M.M., Bridges J.C., Franchi I.A., Gibson J.M., Rooke G., Sexton A.S., Verchovsky A.B., Wright I.P., and Pillinger C.T. (1997) Hammadah al Hamra 180: Light-element geochemistry of an unusual unequilibrated chondrite.Meteorit. Planet. Sci. 32, A50-A51.
GRADY,98: M.M. Grady, I.P. Wright and C.T. Pillinger (1998) A nitrogen and argon stable isotope study of Allan Hills 84001: Implications for the evolution of the Martian atmosphere.Meteorit. Planet. Sci. 33, 795-802.
GRAF,87: Graf T., Vogt S., Bonani G., Herpers U., Signer P., Suter M., Wieler R. and Woelfli W. (1987) Depth Dependence of 10Be and 26Al Produktion Rates in the Iron Meteorite Grant.
Nuclear Inst. and Methods in Physics Research B29, 262-265 and pers. com.GRAF,89: Graf T. (1989) Produktion kosmogener Nuklide in Meteoriten.
Diss. ETH Zuerich, pp. 134. See also: Graf Th., Signer P., Wieler R., Herpers U., Sarafin R., Vogts S., Fieni Ch., Pellas P., Bonani G., Suter M. and Woelfli W. (1990) Cosmogenic nuclides and nuclear tracks in the chondrite Knyahinya. Geochim. Cosmochim. Acta 54, 2511-2520.
GRAF,97: Graf Th., Marti K., Xue S., Herzog G.F., Klein J., Middleton R., Metzler K., Herd R., Brown P., Wacker J.F., Jull A.J.T., Masarik J., Koslowsky V.T., Andrews H.R., Cornett R.J.J., Davies W.G., Greiner B.F., Imahori Y., McKay J.W., Milton G.M. and Milton J.C.D. (1997) Exposure history of the Peekskill (H6) meteorite.Meteorit. Planet. Sci. 32, 25-30.
GRAF,01: Graf Th., Caffee M.W., Marti K., Nishiizumi K., and Ponganis K.V. (2001) Dating collisional events: 36Cl-36Ar exposure ages of H-chondritic metals.Icarus 150, 181-188.
GRESHA,01: Greshake A., Schmitt R.T., Stöffler D., Pätsch M. and Schultz L. (2001) Dhofar 081: A new lunar highland meteorite.Meteorit. Planet. Sci. 36, 459-470.
HAMPEL,80: Hampel W., Waenke H., Hofmeister H., Spettel B. and Herzog G.F. (1980) 26-Al and Rare Gases in Allende, Bereba and Juvinas: Implications for Production Rates. Geochim. Cosmochim. Acta 44, 539-547.
HARRIS,81: Harrison T.M. and Sungshan W. (1981) Further 40-Ar/39-Ar Evidence for Multi-Collisional Heating of the Kirin Chondrite. Geochim. Cosmochim. Acta 45, 2513-2517.
HAYAKA,61: Hayakawa T., Hintenberger H. and Waenke H. (1961) Ueber die Haeufigkeiten der durch die kosmische Strahlung in einigen Eisenmeteoriten produzierten Helium- und Neonisotope.Z. Naturforsch. 16a, 844.
HENNEC,76: Hennecke E.W. and Manuel O.K. (1976) A Comparsion of the Noble Gases in Three Meteorite Specimens Labeled Springfield.Z. Naturforsch. 31a, 293-296.
HENNEC,77: Hennecke E.W. and Manuel O.K. (1977) Argon, Krypton and Xenon in Iron Meteorites. Earth Planet. Sci. Lett. 36, 29-43.
HERRMA,96: S. Herrmann (1996) priv. com.HERRMA,96A: Herrmann S., Scherer P. and Schultz L. (1996) Noble Gases in 20 Saharan LL Chondrites:
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HERPER,89: Herpers U., Vogt,S., Signer P., Wieler R., Beer J., and Woelfli W. (1989) Cosmogenic Radionuclides and Noble Gases in Allan Hills C-Chondrites. IN: Workshop on Differences between Antarctic and Non-Antarctic Meteorites. Wien, 46-48.
HERPER,90: Herpers U., Vogt S., Bremer K., Hofmann H.J., Woelfli W., Bobe K., Stoeffler D., Wieler R., Signer P., Michel R., Dragovitsch P. and Filges D. (1990) Cosmogenic nuclides in eucrites.Nucl. Inst. Meth. Phys. Res. B52, 612-617.
HERPER,95: Herpers U., Vogt S., Bremer K., Hofmann H.J., Suter M., Woelfli W., Wieler R., Lange H.-J. and Michel R. (1994) Cosmogenic nuclides in differentiated Antarctic meteorites: Measurements and model calculations. Planet. Space Sci. 43, 545-556. see also HERPER, 90.
HERZOG,71: Herzog G.F. and Anders E. (1971) Radiation Age of the Norton County Meteorite. Geochim. Cosmochim. Acta 35, 239-244.
HERZOG,73: Herzog G.F. (1973) Variability of the 3-He and 21-Ne Production Rates in Ordinary Chondrites. Geochim. Cosmochim. Acta 37, 2125-2133.
HERZOG,74: Herzog G.F. and Anders E. (1974) Primordial Noble Gases in Separated Meteoritic Minerals II. Earth Planet Sci. Lett. 24, 173-181.
HERZOG,74A: Herzog G.F. and Cressy P.J. (1974) Variability of the 26-Al Production Rate in Ordinary Chondrites. Geochim. Cosmochim. Acta 38, 1827-1841.
HERZOG,76: Herzog G.F. and Cressy P.J. (1976) 26-Al Losses from Weathered Chondrites. Meteoritics 11, 59-68.
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HERZOG,76A: Herzog G.F., Lipschutz M.E., Jain A.V. and Rodman T.E. (1976) Noble Gases and Shock Effects in the Odessa Octahedrite.J. Geophys. Res. 81, 3583-3586.
HERZOG,77: Herzog G.F. and Cressy P.J. (1977) Diogenite Exposure Ages.Geochim. Cosmochim. Acta 41, 127-134.
HERZOG,77A: Herzog G.F. and Anders E. (1977) Shielding effects in Norton County and other Aubrites. J. Geophys. Res. 82, 3430-3436.
HERZOG,79: Herzog G.F., Gibson Jr. E.K. and Lipschutz M.E. (1979) Thermal Metamorphism of Primitive Meteorites - VIII. Noble Gases, Carbon and Sulfur in Allende (C3) Meteorite Heated of 400-1000 C. Geochim. Cosmochim. Acta 43, 395-404.
HERZOG,91: Herzog G.F., Vogts S., Aylmer D., Signer P., Graf Th., Wieler R., Klein J., Fink D., Middleton R., and Jull A.J.T. (1991) Multistage exposure history of the Torino, H6, Meteorite LPSC 22, 563-564
HERZOG,97: Herzog G.F., Vogt S., Albrecht A., Xue S., Fink D., Klein J., Middleton R., Weber H.W. and Schultz L. (1997) Complex exposure histories for meteorites with „short“ exposure ages. Meteorit. Planet. Sci. 32, 413-422.
HEUSSE,78: Heusser G., Hampel W., Kirsten T.,and Schaeffer O.A. (1978) Cosmogenic Isotopes in Recently Fallen Meteorites,Meteoritics 13, 492 and pers. com.
HEUSSE,79: Heusser G., Kirsten T. and Ries D. (1979) Complex Irradiation History of the Kirin (H5) Chondrite. Meteoritics 14, 412- 414.
HEYMAN,64: Heymann D. (1964) Origin of the Canyon Diablo No. 2 and No. 3 Meteorites. Nature 204, 819-821.
HEYMAN,65: Heymann D. (1965) Cosmogenic and Radiogenic Helium, Neon and Argon in Amphoteric Chondrites. J. Geophys. Res. 70, 3735-3743.
HEYMAN,66: Heymann D. and Mazor E. (1966) St. Mesmin. a Gas-Rich Amphoteric Chondrite. J. Geophys. Res. 71, 4695-4697.
HEYMAN,66A: Heymann D. (1966) Rare Gas Isotopes in the Bursa and Cannakale Chondrites. Sci. Rep. Faculty of Sci., Ege Univ. No. 28, Izmir (Turkey).
HEYMAN,66B:Heymann D., Lipschutz M.E., Nielson B. and Anders E. (1966) Canyon Diablo Meteorite: Metallographic and Mass Spectrometric Study of 56 Fragments. J. Geophys. Res. 71, 619-641.
HEYMAN,67: Heymann D. (1967) On the Origin of Hypersthene Chondrites: Ages and Shock Effects of Black Chondrites. Icarus 6, 189-221.
HEYMAN,67A:Heymann D. and Mazor E. (1967) Light-Dark Structure and Rare Gas Content of the Carbonaceous Chondrite Nogoya.J. Geophys. Res. 72, 2704-2707.
HEYMAN,67B: Heymann D. and Anders E. (1967) Meteorites with Short Cosmic-Ray Exposure Ages, as Determined from their 26-Al Content. Geochim. Cosmochim. Acta 31, 1793-1809.
HEYMAN,68: Heymann D., Mazor E. and Anders E. (1968) Ages of Ca-Rich Achondrites-I. Eucrites. Geochim. Cosmochim. Acta 32, 1241-1268.
HEYMAN,68A: Heymann D. and Mazor E. (1968) Noble Gases in Unequilibrated Ordinary Chondrites. Geochim. Cosmochim. Acta 32, 1-19.
HEYMAN,85: Heymann D. and Palma R.L. (1985) Isotopic Systematics of Neon in Sieve Fractions of Disaggregated Allende Meteorite. LPSC 16, 347-348.
HINTEN,62: Hintenberger H., Koenig H. and Waenke H. (1962) Ueber den Helium und Neongehalt von Steinmeteoriten und deren radiogene und kosmogene Alter. Z. Naturforsch. 17a, 1092-1102.
HINTEN,62A: Hintenberger H., Koenig H. and Waenke H. (1962) Uredelgase im Meteoriten Breitscheid. Z. Naturforsch. 17a, 306-309.
HINTEN,64: Hintenberger H., Koenig H., Schultz L. and Waenke H. (1964) Radiogene, spallogene und primordiale Edelgase in Steinmeteoriten.Z. Naturforsch. 19a, 327-341.
HINTEN,64A: Hintenberger H., Koenig H., Schultz L., Waenke H. and Wlotzka F. (1964) Die relativen Produktionsquerschnitte fuer 3-He und 21-Ne aus Mg, Si, S und Fe in Steinmeteoriten. Z. Naturforsch. 19a, 88-91.
HINTEN,64B: Hintenberger H., Vilcsek E. and Waenke H. (1964) Zur Frage der Diffusionsverluste von radiogenen und spallogenen Edelgasen aus Steinmeteoriten. Z. Naturforsch. 19a, 219-224.
11
HINTEN,64C: Hintenberger H. and Waenke H. (1964) Helium- und Neonisotope in Eisenmeteoriten. Z. Naturforsch. 19a, 210-218.
HINTEN,65: Hintenberger H., Koenig.H., Schultz L. and Waenke H. (1965) Radiogene, spallogene und primordiale Edelgase in Steinmeteoriten III. Z. Naturforsch. 20a, 983-989.
HINTEN,65A: Hintenberger H., Vilcsek E., and Waenke H. (1965) Ueber die Isotopenzusammensetzung und den Sitz der leichten Uredelgase in Steinmeteoriten. Z. Naturforsch. 20a, 939-945.
HINTEN,65B: Hintenberger H., Schultz L. and Waenke H. (1965) Unpublished Data.HINTEN,66: Hintenberger H., Schultz L. and Waenke H. (1966) Messung der Diffusionsverluste von
radiogenen und spallogenen Edelgasen in Steinmeteoriten II. Z. Naturforsch. 21a, 1147-1159.
HINTEN,67: Hintenberger H., Schultz L., Waenke H. and Weber H. (1967) Helium- und Neonisotope in Eisenmeteoriten und der Tritiumverlust in Hexaedriten. Z. Naturforsch. 22a, 780-787.
HINTEN,69: Hintenberger H., Schultz L. and Weber H. (1969) Rare Gases in the Iron and in the Inclusions of the Campo Del Cielo Meteorite, El Taco.IN: Meteorite Research, (Ed P.M. Millman), 895-900, Reidel, Dordrecht and priv. com. L. Schultz.
HINTEN,70: Hintenberger H., Weber H.W., Voshage H., Waenke H., Begemann F. and Wlotzka F. (1970) Concentrations and Isotopic Abundances of the Rare Gases, Hydrogen and Nitrogen in Apollo 11 Lunar Matter.Proc. Apollo 11 Lunar Sci. Conf. 1269-1282.
HINTEN,78: Hintenberger H., Jochum K.P., Braun O., Christ P. and Martin W. (1978) The Antarctic Meteorite Yamato 74123: a New Ureilite.Earth Planet. Sci. Lett. 40, 187-193.
HOFFMA,58: Hoffman J.H. and Nier A.O. (1958) Production of Helium in Iron Meteorites by the Action of Cosmic Rays. Phys. Rev. 112, 2112-2117.
HOFFMA,59: Hoffman J.H. and Nier A.O. (1959) The Cosmogenic He-3 and He-4 Distribution in the Meteorite Carbo. Geochim. Cosmochim. Acta 17, 32-36.
HOFFMA,60: Hoffman J.H. and Nier A.O. (1960) Cosmic-Ray-Produced Helium in the Keen Mountain and Casas Grandes Meteorites. J. Geophys. Res. 65, 1063-1068.
HOHENB,81: Hohenberg C.M., Hudson B., Kennedy B.M., and Podosek F.A. (1981) Noble Gas Retention Chronologies for the St.Severin Meteorite.Geochim. Cosmochim. Acta 45, 535-546.
HOHENB,90: Hohenberg C.M., Nichols R.H., Olinger C.T., and Goswami J.N. (1990) Cosmogenic neon from individual grains of CM meteorites: Extremely long pre-compaction exposure histories or an echanced early particle flux. Geochim. Cosmochim. Acta 54, 2133-2140. (Not all data shown in table).
HONDA,82: Honda M., Nishiizumi K., Imamura M., Takaoka N., Nitoh, Horie K. and Komura K. (1982) Cosmogenic Nuclides in the Kirin Chondrite.Earth Planet. Sci. Lett. 57, 101-109.
HONDA,83: Honda M., Bernatowicz T.J. and Podosek F.A. (1983) 129-Xe-128-Xe and 40-Ar-39-Ar Chronology of Two Antarctic Enstatite Meteorites.Mem. Natl. Inst. Polar Res., Spec. Issue 30, 275-291.
HONDA,92: Honda M., Nagai H., Imamura M., Kobayashi K., Takaoka N., Nagao K., and Miura Y.(1992) Cosmogenic nuclides in the Tsarev chondrite. Meteoritics 27, 234.
HONDA,96: Honda M., Nagai H., Nagao K., and Miura Y.N. (1996) Cosmogenic nuclides in the Brenham pallasite. Meteorit. Planet. Sci. 31, A63-A64. See also Honda,02.
HONDA,02: Honda M., Caffee A.W., Miura Y.N., Nagai H., Nagao K. and Nishiizumi K. (2002) Cosmogenic nuclides in the Brenham pallasite.Meteorit. Planet. Sci. 37, 1711-1728. See also HONDA,96.
HUNEKE,69: Huneke J.C., Nyquist L.E., Funk H., Koeppel V. and Signer P. (1969) The Thermal Release of Rare Gases from Separated Minerals of the Mocs Meteorite.IN: Meteorite Research (Edited By P.M. Millman), 901-921. Reidel, Dordrecht.
HUNEKE,72: Huneke J.C., Podosek F.A., Burnett D.S. and Wasserburg G.J. (1972) Rare Gas Studies of the Galactic Cosmic Ray Irradiation History of Lunar Rocks. Geochim. Cosmochim. Acta 36, 269-301.
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HUSS,95: Huss G.R. and Lewis R.S. (1995) Presolar diamand, SiC and graphite in primitive chondrites: Abundances as a function of meteorite class and petrographic type. Geochim. Cosmochim. Acta 59, 115-160.
HUSS,96: Huss G.R., Lewis R.S., and Hemkin S. (1996) The „normal planetary“ noble gas component in primitive chondrites: Compositions, carrier, and metamorphic history. Geochim. Cosmochim. Acta 60, 3311-3340.
INADA,03: Inada A. and Nagao K. (2003) Noble gases and cosmic ray exposure history of Willard(b) H chondrite: A breccia with carbonaceous chondritic inclusions.Meteorit. Planet. Sci. 38 (Subl.), A92.
IVANOV,93: Ivanova M.A., Assonov S.S. and Shukolynkov Y.A.(1993) First investitation of noble gases in the Dengli H3.8 chondrite. LPSC 24, 695-696.
JEFFER,70: Jeffery P.M. and Anders E. (1970) Primordial Noble Gases in Separated Meteoritic Minerals-I. Geochim. Cosmochim. Acta 34, 1175-1198.
JENTSC,87: Jentsch O. and Schultz L. (1987) Trapped Noble Gases in Silicate Inclusions of the Landes Iron Meteorite.Meteoritics 22, 418-419.
JENTSC,96: Jentsch O. and Schultz L. (1996) Cosmogenic noble gases in silicate inclusions of iron meteorites: Effects of bulk composition on elemental production rates.
J. Roy. Soc. West. Austr. 79, 67-71 + pers. com.JESSBE,84: Jessberger E.K. (1984) 39-Ar Recoil and the Apparent Persistence of the Presolar Age of an
Allende Inclusion. Earth Planet. Sci. Lett. 69, 1-12.
JORDAN,87: Jordan J., Barrett R.A., Bogard D.D. and McKay D.S. (1987) Rare gas and petrological studies of disaggregated size separates of the Fayetteville meteorite breccia. LPSC 18, 472-473.
JUNG,82: Jung J. (1982) Silikateinschluesse in Eisenmeteoriten - petrologisch-chemische Untersuchungen am Meteoriten Campo del Cielo. Diss., Universitaet Mainz, pp. 136.
KAISER,69: Kaiser W. and Zaehringer J. (1969) K/Ar-Age Determinations of Iron Meteorites V. IN: Meteorite Research, (Ed. P.M. Millman), 429-443, Reidel, Dordrecht.
KAMAGU,78: Kamaguchi A. and Okano J. (1978) K-Ar Age of Yamato Meteorite, Yamato-74190-10 (L). Proc. 2nd Symp. on Yamato Meteorites, 225-232.
KAMAGU,79: Kamaguchi A. and Okano J. (1979) K-Ar Ages of Yamato-74 Meteorites. Mem. Natl. Inst. Pol. Res., Spec. Issue 12, 178-185.
KANEOK,79: Kaneoka I., Ozima M. and Yanagisawa M. (1979) 40-Ar - 39-Ar Age Studies of Four Yamato-74 Meteorites.Mem. Natl. Inst. Pol. Res., Spec. Issue 12, 186-206.
KANEOK,80: Kaneoka, I. (1980) 40-Ar/39-Ar Ages of L and LL Chondrites from Allan Hills, Antarctica: ALHA 77015,77214 and 77304.Mem. Natl. Inst. Pol. Res., Spec. Issue 17, 177-188.
KANEOK,81: Kaneoka I. (1981) 40-Ar - 39-Ar Ages of Antarctic Meteorites: Y-74191, Y-75258, Y-7308, Y-74450 and ALH 765.Mem. Natl. Inst. Pol. Res., Spec. Issue 20, 250-263.
KANEOK,83: Kaneoka I. (1983) Investigation of the Weathering Effect on the 40-Ar-39-Ar of Antarctic Meteorites. Mem. Natl. Pol. Res., Spec. Issue 30, 259-374.
KANEOK,86: Kaneoka I. and Takaoka N. (1986) 40Ar-39Ar Analyses of Lunar Anorthositic Breccia, Yamato-82192, from Antarctica.Mem. Natl. Inst. Polar. Res. (Tokyo), Spec. Issue 46, 105-112.
KANEOK,89: Kaneoka I., Takaoka N. and Yanai K. (1989) 40Ar-39Ar Age and Noble Gases of a H-Chondritic Clast in a Shocked L6-Chondrite from Antarctica. Meteoritics 24, 283. See also KANEOK,96.
KANEOK,92: Kaneoka I., Takaoka N. and Yanai K.(1992) 40-Ar - 39-Ar analyses of Y-74063 and ALH-78230 consortium study of unique meteorites from Antarctica. Proc. NIPR Symp. Antarct. Meteorites 5, 224-232.
KANEOK,93: Kaneoka I. and Nagao K.(1993) 40Ar-39Ar analyses of lunar meteorite (Yamato-86032) and a few LL3 and LL4 chondrites from Antarctica.Proc. NIPR Symp. Antarct. Met. 6, 88-99.
KANEOK,95: Kaneoka I., Nagao K., Yamaguchi A. and Takeda H. (1995) 40Ar-39Ar analyses of Juvinas fragments.Proc. NIPR Symp. Antarc. Meteorites 8, 287-296.
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KANEOK,96: Kaneoka I., Takaoka N. and Yanai K (1996) 40Ar-39Ar and noble gas analyses of a H-type clast included in a shocked L-chondrite from Antarctica.In: “Earth Processes: Reading the Isotopic Code“, Geophys. Monograph 95, AGU, 21-31.
KASHKA,00: Kashkarov L.L., Assonov S.S., Kalinina G.V., Mohamednazarov S., Schukoyukov Yu.A. and Skripnik A.Ya. (2000) Track and Noble Gas Investigation of New Kunya-Urgench H5 Chondrite,Lunar Planet. Sci. 31, Abstr.# 1397 (CD-ROM).
KEIL,90: Keil K., Ehlmann A.J. and Wieler R. (1990) The Olton, Texas, H chondrite regolith breccia: Paired with Dimmit. Meteoritics 25, 259-261.
KEMPE,66: Kempe W. and Zaehringer J. (1966) K-Ar-Altersbestimmmungen an Eisenmeteoriten I. Geochim. Cosmochim. Acta 30, 1049-1057.
KERRID,79: Kerridge J.F., Macdougall J.D. and Marti K. (1979) Clues to the Origin of Sulfide Minerals in CI Chondrites.Earth Planet. Sci. Lett. 43, 359-367.
KIM,92: Kim J.S. and Marti K. (1992) Solar-type Xenon: Isotopic Abundances in Pesyanoe. Proc. Lunar Planet. Sci. 22, 145-151.
KING,78: King E.A. and Herzog G.F. (1978) Six Meteorites from Kansas: Petrographic Observations and Rare Gases.Meteoritics 13, 193-200.
KIRSTE,63: Kirsten T., Krankowsky D. and Zaehringer J. (1963) Edelgas- und Kalium-Bestimmungen an einer groesseren Zahl von Steinmeteoriten. Geochim. Cosmochim. Acta 27, 13-42.
KIRSTE,67: Kirsten T., Reported in Mason B. and Jarosewich (1967) The Winona Meteorite. Geochim. Cosmochim. Acta 31, 1097-1099.
KIRSTE,72: Kirsten T. (1972) Priv. com. to J.H. Reynolds.KIRSTE,80: Kirsten T., Ries D., Englert P., and Herr W. (1980) Cosmogenic Nuclides in 13 Chondrite Finds:
Implications for Exposure Age Systematics. Meteoritics 15, 317 and pers. Com.
KOENIG,59: Koenig H., Waenke H. and Mayne K.I. (1959) Der Meteorit von Breitscheid-IV. Radiochemische Untersuchungen. Geochim. Cosmochim. Acta 17, 339-351.
KOENIG,61: Koenig H., Keil K., Hintenberger H., Wlotzka F. and Begemann F. (1961) Untersuchungen an Steinmeteoriten mit extrem hohem Edelgasgehalt I. Der Chondrit Pantar.Z. Naturforsch. 16a, 1124-1130.
KOENIG,62: Koenig H., Keil K. and Hintenberger H. (1962) Untersuchungen an Steinmeteoriten mit extrem hohem Edelgasgehalt II. Der Chondrit Tabor. Z. Naturforsch. 17a, 357-358.
KRING,95: Kring D.A., Swindle T.D., Britt D.T. and Grier J.A. (1995) Cat Mountain: A meteoritic sample of an impact-melted asteroid regolith. J. Geophys. Res. 101, 29,353-29,371.
KUNZ,95: Kunz J., Trieloff M., Bobe K.D., Metzler K., Stoeffler D. and Jessberger E.K. (1995) The collisional history of the HED parent body inferred from 40-Ar-39-Ar ages of eucrites.Planet. Space Sci. 43, 527-543.
KUNZ,97: Kunz, J., Falter M. and Jessberger E.K. (1997) Shocked meteorites: Argon-40-argon-39 evidence for multiple impacts.Meteorit. Planet. Sci. 32, 647-670.
KURAT,01: Kurat G., Brandstätter F., Clayton R.N., Nazarov M.A., Palme H., Schultz L., Varela M.E., Wäsch E., Weber H.W. and Weckwerth G. (2001) D’Orbigny: A new and unusual angrite.Lunar. Planet. Sci. XXXII, Abstr.# 1753, LPI Houston (CD-ROM).
KURAT,04: Kurat G., Varela M.E., Brandstätter F., Weckwerth G., Clayton R.N., Weber H.W., Schultz L., Wäsch E. and Nazarov M.A. (2001) D’Orbigny: A non-igneous angritic achondrite?Geochim. Cosmochim. Acta 68, 1901-1921. See also KURAT,01.
LAEMME,66: Laemmerzahl P. and Zaehringer J. (1966) K-Ar-Altersbestimmungen an Eisenmeteoriten - II. Geochim. Cosmochim Acta 30, 1059-1074.
LANCET,71: Lancet M.S. and Lancet K. (1971) Cosmic-Ray and Gas Retention Ages of the Chassigny Meteorite. Meteoritics 6, 81-86.
LAVIEL,97: Lavielle B., Toé and Gilabert E. (1997) Noble gas measurements in the L/LL5 chondrite Knyahinya. Meteorit. Planet. Sci. 32, 97-107.
LAVIEL99: B. Lavielle, K. Marti, J.-P. Jeannot, K. Nishiizumi and M. Caffee (1999) The 36Cl-36Ar-40K-41K records and cosmic ray production rates in iron meteorites.Earth Planet. Sci. Lett. 170, 93-104.
LEVSKY,71: Levsky L.K., Fedorova I.V. and Yakovleva S.Z. (1971) Distribution of Inert Gases in Chondrites. Geochimiya 5, 515-522.
LEVSKY,71A: Levsky L.K. (1971) Cosmogenic Isotopes in 42 Fragments of the Sikhote-Alin Meteorite. Geochimika 8, 932-937.
14
LEVSKY,72: Levsky L.K. (1972) priv. com. to J.H. Reynolds.LEVSKY,72A: Levsky L.K. (1972) New Data on the Isotopic Composition of Noble Gases in Stony Meteorites.
Meteoritica 31, 149-150.LEVSKY,75: Levsky L.K. and Komarow A., (1975) He, Ne and Ar Isotopes in Inclusions of Some Iron
Meteorites. Geochim. Cosmochim. Acta 39, 275-284.
LEVSKY,79: Levsky L.K. (1979) Rare Gases in Carbonaceous Chondrites.Meteoritika 38, 27-36.
LEWIS,75: Lewis R.S., Srinivasan B. and Anders E. (1975) Host Phase of a Strange Xenon Component in Allende.Science 190, 1251-1262.
LEWIS,77: Lewis R.S., Gross J. and Anders E. (1977) Isotopic Anomalies of Noble Gases in Meteorites and their Origins. 2. Separated Minerals from Allende. J. Geophys. Res. 82, 779-792.
LEWIS,79: Lewis R.S., Alaerts L., Hertogen J., Janssens M.-J., Palme H. and Anders E. (1979) A Carbonaceous Inclusion from the Krymka LL-Chondrite: Noble Gases and Trace Elements.Geochim. Cosmochim. Acta 43, 897-903.
LEWIS,79A: Lewis R.S., Hertogen J., Alaerts L. and Anders E. (1979) Isotopic Anomalies in Meteorites and their Origins-V. Search for Fission Fragment Recoils in Allende Sulfides.Geochim. Cosmochim. Acta 43, 1743-1752.
LEWIS,85: Lewis R.S. (1985) Noble Gases in the Unique Breccia Bencubbin.Meteoritics 20, 698-699.
LEWIS,94: Lewis R.S., Amari S. and Anders E. (1994) Interstellar grains in meteorites: II. SiC and its noble gases. Geochim. Cosmochim. A. 58, 471-494.
LEYA,00: Leya I., Wieler R. and Herzog G.F. (2000) Helium and Neon in Canyon Diablo Spheroids.Lunar Planet. Sci. 31, Abstr.# 1480 (CD-ROM). See also LEYA,01
LEYA,00A: Leya I., Graf Th., Nishiizumi K., Günther D. and Wieler R. (2000) Cosmogenic 21Ne production rates in H-chondrites based on 36Cl-36Ar ages.Lunar Planet. Sci. 31, Abstr.# 1562 (CD-ROM).
LEYA,01: Leya I., Graf Th., Nishiizumi K., and Wieler R. (2001) Cosmic-ray production rates of helium, neon and argon isotopes in H-chondrites based on chlorine-36/argon-36 ages.Meteorit. Planet. Sci. 36, 963-973. See also LEYA,00A.
LEYA,01A: Leya LO., Wieler R., Aggrey K., Herzog G.F., Schnabel C., Metzler K., Hildebrand A.R., Bouchard M., Jull A.J.T., Andrews H.R., Wang M-S., Ferko T.E., Lipschutz M.E., Wacker J.F., Neumann S. and Michel R. (2001) Exposure history of the St-Roberts (H5) fall.Meteorit. Planet. Sci. 36, 1479-1494.
LEYA,04: Leya I., Gilabert E., Lavielle B., Wiechert U. and Wieler R. (2004) Production rates for cosmogenic krypton and argon isotopes in H-chondrites with known 36Cl-36Ar ages.Ant. Meteorite Res. (submitted).
LIPSCH,65: Lipschutz M.E., Signer P. and Anders E. (1965) Cosmic Ray Exposure Ages of Iron Meteorites by the Ne-21/Al-26 Method.J. Geophys. Res. 70, 1473-1489.
LIPSCH,93: Lipschutz M.E., Wolf S.F., Vogt S., Michlovich E., Lindstrom M.M., Zolensky M.E., Mittlefehldt D.W., Satterwhite C., Schultz L., Loeken Th., Scherer P., Dodd R.T., Sears D.W., Benoit P.H., Wacker J.F., Burns R.G. and Fisher D.S. (1993) Consortium study of the unusual H chondrite regolith breccia, Noblesville.Meteoritics 28, 528-537.
LOEKEN,92: Loeken Th., Scherer P., Weber H.W. and Schultz L.(1992) Noble gases in 18 stone meteorites. Chem. Erde 52, 249-259.
LOEKEN,92A:Loeken Th.(1992) priv. com.LOEKEN,93: Loeken Th.(1993) Bestimmung des Edelgasgehaltes von H-Chondriten und ein Vergleich mit
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LORENZ,02: Lorenzetti S. and Eugster E. (2002) Noble gas characteristics of lunar meteorite Yamato-981031 paired with basaltic-anorthositic breccia Yamato-793274.Antarctic Meteorites XXVII, 75-76. See also LORENZ.04.
LORENZ,03: Lorenzetti S., Eugster O., Busemann H., Marti K., Burbine T.H. and McCOY T. (2003) History and origin of aubrites.Geochim. Cosmochim Acta 67, 557-571.
LORENZ,03A: Lorenzetti S., Eugster O., Gnos E., Hofmann B.A., Al-Kathiri A., Villa I. and Jull A.J.T. (2003) Cosmic ray exposure history of the new Omani lunar meteorite Sayh al Uhaymir 169. Meteorit. Planet. Sci. 38 (Subl.), A26.
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LORENZ,03B: Lorenzetti S., Y. Lin, D. Wang and Eugster O. (2003) Noble gases and mineralogy of meteorites from China and the Grove Mountains, Antarctica: A 0.05 Ma cosmic ray exposure age of GRV 98004.Meteorit. Planet. Sci. 38, 1243-1253.
LORENZ,04: Lorenzetti S., Busemann H. and Eugster O. (2004) Regolith history of lunar meteorites. Meteorit. Planet. Sci. (subm.). See also LORENZ,03A.
LORENZ,04A: Lorenzetti S. (2004) priv. Com.LUGMAI,77: Lugmair G.W. and Marti K. (1977) Sm-Nd-Pu Timepieces in the Angra Dos Reis Meteorite.
Earth Planet. Sci. Lett. 35, 273-284.LUX,83: Lux G. (1983) Cosmogenic Neon in Murchison Separates: Evidence for Preaggregation Exposure
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MACDOU,77: Macdougall J.D. and Phinney D. (1977) Olivine Separates from Murchison and Cold Bokkeveld: Particle Tracks and Noble Gases. Proc. Lunar Sci. Conf. 8th, 293-311.
MAHAJA,00: Mahajan R.R., Murty S.V.S. and Ghosh S. (2000) Exposure ages of Lohawat (howardite) and Vissannapeta (eucrite), the recent falls in India.Meteorit. Planet. Sci. 35, A101.
MANUEL,64: Manuel O.K. and Kuroda P.K. (1964) Isotopic Composition of the Rare Gases in the Fayetteville Meteorite. J. Geophys. Res. 69, 1413-1419.
MANUEL,64A: Manuel O.K. and Rowe M.W. (1964) Noble Gases in the Bruderheim Chondrite. Geochim. Cosmochim. Acta 28, 1999- 2003.
MANUEL,67: Manuel O.K. (1967) Noble Gases in the Fayetteville Meteorite. Geochim. Cosmochim. Acta 31, 2413-2431.
MANUEL,72: Manuel O.K., Wright R.J., Miller D.K. and Kuroda P.K. (1972) Isotopic Compositions of Rare Gases in the Carbonaceous Chondrites Mokoia and Allende. Geochim. Cosmochim. Acta 36, 961-983.
MARUOK,01: Maruoka T., Matsuda J., and Kurat G. (2001) Abundance and isotopic composition of noble gases in metal and graphite of the Bohumilitz IAB iron meteorite.Meteorit. Planet. Sci. 36, 597-606.
MARTI,67: Marti K. (1967) Mass-Spectrometric Detection of Cosmic-ray-Produced 81-Kr in Meteorites and the Possibility of Kr-Kr-Dating. Phys. Rev. Lett. 18, 264-266.
MARTI,69: Marti K., Shedlovskj J.P., Lindstrom R.M., Arnold J.R. and Bhandari N.G. (1969) Cosmic-Ray Produced Radionuclides and Rare Gases Near the Surface of Saint Severin Meteorite. IN: Meteorite Research (Ed. P.M.Millman), 246-266.
MARTI,95: Marti K., Kim J.S., Thakur A.N., McCoy T.J. and Keil K. (1995) Signatures of the Martian Atmosphere in Glass of the Zagami Meteorite.Science 267, 1981-1984.
MATHEW,95: K.J. Mathew and F. Begemann (1995) Isotopic composition of xenon and krypton in silicate-graphite inclusions of the El Taco, Campo del Cielo, IAB iron meteorite.Geochim. Cosmochim. Acta 59, 4729-4746.
MATHEW,97: Mathew K.J. and Begemann F. (1997) Solar-like trapped noble gases in the Brenham pallasite.. J. Geophys. Res. 102, 11,015-11,026.
MATHEW,01: Mathew K.J. and Marti K. (2001) Early evolution of Martian volatiles: Nitrogen and noble gas components in ALH84001 and Chassigny.J. Geophys. Res. 106, 1401-1422.
MATHEW,03: Mathew K.J. and Marti K. (2003) Solar wind and other gases in the regoliths of the Pesyanoe parent object and the moon.Meteorit. Planet. Sci. 38, 627-643.
MATHEW,03A: K.J. Mathew, B. Marty, K. Marti and L. Zimmermann (2003) Volatiles (nitrogen, noble gases) in recently discovered SNC meteorites, extinct radioactivities and evolution.Earth Planet. Sci. Lett. 214, 27-42.
MATSUD,80: Matsuda J., Lewis R.S., Takahashi H. and Anders E. (1980) Isotopic Anomalies of Noble Gases in Meteorites and their Origins - VII. CV3 Carbonaceous Chondrites.Geochim. Cosmochim. Acta 44, 1861-1874.
MATSUD,96: Matsuda J., Nagao K. and Kurat G. (1996) Noble gases in metal and schreibersite of the Acuna (IIIAB) iron meteorite.Meteoritics 31, 227-233.
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MATSUD,99: Matsuda J., Amari S. and Nagao K. (1999) Purely physical separation of a small fraction of Allende meteorite that is highly enriched in noble gases.Meteorit. Planet. Sci. 34, 129-136.
MATSUM,01: Matsumoto Y., Matsumoto T., Matsuda J. and Nakamura N. (2001) A preliminary report on noble gases in thr Kobe (CK) meteorite: A carbonaceous chondrite fall in Kobe City, Japan.Antarctic. Meteorite Res. 14, 61-70.
MATSUM,02: Matsumoto Y., Matsumoto T., Matsuda J. And Nakamura N. (2002) A noble gas study of the Kobe (CK4) chondrite by a stepwise heating method.Geochem. J. 36, 341-353.
MAZOR,67: Mazor E. and Anders E. (1967) Primordial Gases in the Jodzie Howardite and the Origin of Gas-Rich Meteorites.Geochim. Cosmochim. Acta 31, 1441-1456.
MAZOR,70: Mazor E., Heymann D. and Anders E. (1970) Noble Gases in Carbonaceous Chondrites. Geochim. Cosmochim. Acta 34, 781-824.
MCCONV,88: Mcconville K., Kelley S., Turner G. (1988) Laser Probe 40Ar- 39Ar Studies of the Peace River Shocked L6 Chondrite. Geochim. Cosmochim. Acta 52, 2487-2499.
MCCOY,90: McCoy T.J., Casanova I., Keil K., and Wieler R. (1990) Classification of four ordinary chondrites from Spain.Meteoritics 25, 77-79.
MCCOY,93: McCoy T.J., Keil K., Ash R.D., Morse A.D., Pillinger C.T., Wieler R., Mayeda T.K., Clayton R.N., Benoit P.H., Sears D.W.G., Casanova I., Muenow D.W., Moore C.B., Lewis C.F. and Wilson I.E. (1993) Roosevelt County 075: A petrologic, chemical and isotopic study of the most unequilibrated known H chondrite. Meteoritics 28, 681-691.
MCCOY,96: McCoy T.J., Keil K., Clayton R.N., Mayeda T.K., Bogard D.D., Garrison D.H., Huss G.R., Hutcheon
I.D. and Wieler R. (1996) A petrologic, chemical, and isotopic study of Monument Draw and comparison with other acapulcoites: Evidence for formation by incipient partial melting. Geochim. Cosmochim. Acta 60, 2681-2708.
MCCOY,97: McCoy T.J., Keil K., Clayton R.N., Mayeda T.K., Bogard D.D., Garrison D.H. and Wieler R. (1997) A petrologic and isotopic study of lodranites: Evidence for early formation as partial melt residues from hederogeneous precursors. Geochim. Cosmochim. Acta 61, 623-638.
MEGRUE,66: Megrue G.H. (1966) Rare Gas Chronology of Calcium-Rich Anchondrites.J. Geophys. Res. 71, 4021-4027.
MEGRUE,67: Megrue G.H. (1967) Isotopic Analysis of Rare Gases with a Laser Microprobe. Science 157, 1555-1556.
MEGRUE,68: Megrue G.H. (1968) Rare Gas Chronology of Hypersthene Achondrites and Pallasites. J. Geophys. Res. 73, 2027-2033.
MEGRUE,69: Megrue G.H. (1969) Distribution and Origin of Primordial Helium, Neon, and Argon in the Fayetteville and Kapoeta Meteorites.IN: Meteorite Research (Ed. P.M. Millman), 922-933, Reidel, Dordrecht.
MEGRUE,72: Megrue G.H. and Steinbrunn F. (1972) priv. com. to J.H. Reynolds.MERRIH,62: Merrihue C.M., Pepin R.O. and Reynolds J.H. (1962) Rare Gases in the Chondrite Pantar.
J. Geophys. Res. 67, 2017-2021.MICHEL,89: Michel T. and Eugster O. (1989) Cosmic Ray Exposure Ages of Howardites, Eucrites, and
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MING,88: Ming T., Lewis R.S., Anders E., Grady M., Wright I.P. and Pillinger C.T. (1988) Isotopic Anomalies of Ne, Xe and C in Meteorites. I: Separation of Carriers By Density and Chemical Resistance. Geochim. Cosmochim. Acta 52, 2484-2499.
MIURA,92: Miura Y. and Nagao K.(1992) Noble gases and 81-Kr-Kr exposure ages of non-Antarctic ordinary chondrites: An attempt to measure terrestrial ages of Antarctic meteorites.Proc. NIPR Symp. Antarct. Meteorites 5, 298-309.
MIURA,93: Miura Y., Nagao K., and Fujitani T. (1993) 81-Kr Terrestrial ages and grouping of Yamato eucrites based on noble gas and chemical compositions. Geochim. Cosmochim. Acta 57, 1857-1866.
MIURA,93B: Miura Y., Sugiura N. and Nagao K. (1993) 81Kr-Kr exposure ages and noble gas isotopic compositions of there non-Antarctic eucrites Millbillillie, Camel Donga and Juvinas. Abst. 18 Symp. Antarct.Meteorite, Tokyo 1993, 182-185. See also MIURA,98.
MIURA,95: Miura Y.N. (1995) Studies on differentiated meteorites: Evidence from 244Pu-derivad fission Xe, 81Kr, other noble gases and nitrogen. PhD Dissertation, Univ. of Tokyo 1995, pp.212. See also MIURA,98.
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MIURA,95A: Miura Y.N. (1995) Orthopyroxenite ALH 84001 and shergottite ALH 77005: Additional evidence for a martian origin from noble gases. Geochim. Cosmochim. Acta 59, 2105-2113.
MIURA,98: Miura Y.N., Nagao K., Sugiura N., Fujitani T., and Warren P.H. (1998) Noble gases, 81Kr-Kr exposure ages and 244Pu-Xe ages of six eucrites, Béréba, Binda, Camel Donga, Juvinas, Millbillillie, and Stannern.Geochim. Cosmochim. Acta 62, 2369-2387. See also: Miura,93B and Miura,95.
MIURA,99: Miura Y.N., Nagao K. and Okazaki R. (1999) Noble gases in five aubrites, Cumberland Falls, Mayo Belwa, Mt. Egerton, Norton County and Pena Blanca Springs.Antarctic Meteorites XXIV, 108-110.
MIURA,00: Miura Y.N. and Sugiura N. (2000) Martian atmoshere-like nitrogen in the orthopyroxenite ALH84001Geochim. Cosmochim. Acta 64, 559-572.
MIURA,00A: Miura Y. N. and Nagao K. (2000) Noble gases in Y-791192, Y-75032-type diogenites, and A-881838.Antarctic Meteorites 25, 85-87.
MIURA,02: Miura Y.N., Sugiura N., Kiyota K., and Nagao K. (2002) Noble gases in ordinary chondrites: A study on “Ar-rich” component.Antarctic Meteorites XXVII, 96-98.
MOKOS,00: Mokos J.L., Franke L., Scherer P., Schultz L. and Lipschutz M.E. (2000) Cosmogenic Radionuclides and Noble Gases in Antarctic H Chondrites from Allan Hills with high Natural Thermoluminescence.Meteorit. Planet. Sci. 35, 713-721.
MONIOT,80: Moniot R.K. (1980) Noble-Gas-Rich Separates from Ordinary Chondrites. Geochim. Cosmochim. Acta 44, 253-271.
MONIOT,81: Moniot R.K., Kruse T.H., Savin W., Millazzo T., Herzog G. and Warasila R. (1981) Allan Hills 78084: 10-Be and Noble Gas Contents. Meteoritics 16, 361.
MONIOT,82: Moniot R.K., Kruse T.H., Savin W., Hall G.S., Milazzo T., and Herzog G.F. (1982) High-Energy Mass Spectrometry of 10Be Using a Tandem Van De Graaf Accelerator. Nucl. Inst. Meth. 203, 495-502.
MUELLE,66: Mueller O. and Zaehringer J. (1966) Chemische Unterschiede bei Uredelgashaltigen Steinmeteoriten. Earth Planet. Sci. Lett. 1, 25-29.
MUELLE,69: Mueller H.W. and Zaehringer J. (1969) Rare Gases in Stony Meteorites. Meteorite Research (Ed. P.M. Millman), 845-865. Reidel, Dordrecht.
MUELLE,81: Mueller O., Hampel W., Kirsten T., and Herzog G.F. (1981) Cosmic-Ray Constancy and Cosmogenic Production Rates in Short-Lived Chondrites. Geochim. Cosmochim. Acta 45, 447-460.
MUNK,67: Munk M.N. (1967) Argon, Krypton and Xenon in Angra Dos Reis, Nuevo Laredo and Norton County Achondrites: the Case for Two Types of Fission Xenon in Achondrites.Earth Planet. Sci. Lett. 3, 457-465.
MUNK,67A:Munk M.N. (1967) Spallation Neon, Argon, Krypton, and Xenon in an Iron Meteorite. Earth Planet. Sci. Lett. 2, 301-309.
MUNK,67B:Munk M.N. (1967) Neon, Agon, Krypton, and Xenon Compositions of the Misteca and Carbo Iron Meteorites.Earth Planet. Sci. Lett. 3, 133-138.
MURTY,87: Murty S.V.S. and Marti K. (1987) Nucleonic Noble Gas Components in the Cape York Iron Meteorite.Geochim. Cosmochim. Acta 51, 163-172.
MURTY,92: Murty S.V.S.(1992) Solar gases in Parsa enstatite chondrite.Lunar Planet. Sci. 23, 951-952.
MURTY,92B: Murty S.V.S. and Goswami J.N. (1992) Nitrogen, noble gases, and Nuclear Tracks in Lunar Meteorites MAC88104/105.Proc. Lunar Planet. Sci. 22, 225-237
MURTY,92A: Murty S.V.S. and Bhandari N.(1992) Noble gases and nitrogen in Lahrauli ureilite. Abstr. 17th Symp. Ant. Met., Tokyo, 236-238.
MURTY,95: Murty S.V.S., Mohapatra R.K. and Clement C.J. (1995) Nitrogen and noble gas components in the Martian orthopyroxenite ALH 84001.LPSC 26, 1019-1020.
MURTY,95A:Murty S.V.S., Shukolyukov Y.A. and Goswami J.N. (1995) Excess argon-36 in the Efremovka meteorite: Evidence for live chlorine-36 in the early solar system? Meteoritics 30, 555.
MURTY,96: Murty S.V.S. (1996) Nitrogen components in the Dhajala meteorite. Meteorit. Planet. Sci. 31, A94.
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MURTY,97: Murty S.V.S. (1997) Nitrogen and Xenon components in Acapulco meteorite. In: Isotopes in the Solar System. Abstracts Conf. Ahmedabad 1997, 22-23.
MURTY,97A: Murty S.V.S. and Mohaparta R.K. (1997) Nitrogen and heavy noble gases in ALH84001: Signatures of ancient Martian atmosphere. Geochim. Cosmochim. Acta 61, 5417-5428.
MURTY,98: Murty S.V.S., Bhandari N., Suthar K.M., Clement C.J., Bonino G., Cini Castagnoli G. (1998) Cosmogenic effects in Mbale, L5/6 chondrite.Meteorit. Planet. Sci. 33, 1311-1316.
MURTY,99: Murty S.V.S. and Mohapatra R.K. (1999) Cosmogenic and trapped gas components in the Martian meteorite Dar al Gain 476 from hot desert.In: Workshop on Extraterrestrial Materials from Cold and Hot Deserts (L. Schultz et al. eds.), LPI Cont. 997, LPI Houston, 57-60.
MURTY,01: Murty S.V.S. and Mahajan R.R. (2001) Noble gases in the Itawa Bhopji chondrite.Meteorit. Planet. Sci. 36, A144.
MURTY,03: Murty S.V.S., Mahajan R.R., Das J.P., Sinha N. and Goswami J.N. (2003) Trapped and cosmogenic gas components and nuclear tracks in the nakhlite Y000593.In: Int. Symp. Evolution of Solar System Materials: A New Perspective from Antarctic Meteorites. NIPR Tokyo, 94.
MURTY,03A: Murty S.V.S., Das J.P., Mahajan R.R., Sinha N. and Goswami J.N. (2003) Cosmic ray exposure history and trapped nitrogen and noble gases in the lunar meteorite Y983885.In: Int. Symp. Evolution of Solar System Materials: A New Perspective from Antarctic Meteorites. NIPR Tokyo, 94.
MURTY,04: Murty S.V.S., Rai V.K., Shukla A.D., Srinivasan S., Shukla P.N., Suthar K.M., Bhandari N. and Bischoff A. (2004) Devgaon (H3) chondrite: Classification and complex cosmic ray exposure history.Meteorit. Planet. Sci. 39, 387-399.
NAGAO,79: Nagao K. and Takaoka N. (1979) Rare Gas Studies of Antarctic Meteorites.Mem. Natl. Inst. Pol. Res. (Tokyo), Spec. Issue 12, 207-222.
NAGAO,83: Nagao K., Ogata K., Takaoka N., and Saito K. (1983) Rare Gas Studies of Sixteen Stony Meteorites from Antarctica. Mem. Natl. Inst. Pol. Res., Spec. Issue 30, 349-361.
NAGAO,83A:Nagao K., Takaoka N. and Saito K. (1983) Rare gas studies on the Antarctic Meteorites. Abstr. 8th Symp. Ant. Meteorites, Tokyo, 83-84.
NAGAO,84: Nagao K., Inoue K, and Ogata K. (1984) Primordial Rare Gases in Belgica - 7904 (C2) Carbonaceous Chondrite. Mem. Nat. Inst. Polar Res., Spec. Issue 35, 257-266.
NAGAO,86: Nagao K. and Matsuda J. (1986) Rare Gas Studies of Antarctic Meteorites. 11th Symp. Ant. Met. (Abstracts), Tokyo 1986, 131-132.
NAGAO,87: Nagao K. (1987) Rare Gas Isotopic Composition of Achondrites from Antarctica. Abstr. 12th Symp. Antac. Met., Tokyo, 110-111.
NAGAO,89: Nagao K. and Ogata A. (1989) Terrestrial 81Kr-Kr Ages of Antarctic Eucrites. Abstracts 14th Symp. Ant. Met. Tokyo, 119-121. + Priv. Com.
NAGAO,89A:Nagao K., Miura Y. and Koh T. (1989) Noble Gas Isotopic Compositions of Nine Chondrites from Antarctica. Abstracts 14th Symp. Ant. Met. Tokyo, 104-105.
NAGAO,93: Nagao K. and Miura Y. (1993) Noble gases and 81-Kr - terrestrial age of Asuka-881757 Lunar meteorite. Proc. NIPR Symp. Antarct. Meteorites 6, Tokyo 1993, 76-87.
NAGAO,93A:Nagao K., Miura Y. and Shima M.(1993) Noble gases in Japanese chondrites: their gas retention and cosmic-ray exposure histories. J. Mass Spectrom. Soc. Jpn. 41, 191-209.
NAGAO,94: Nagao K. (1994) Noble gases in hosts and inclusions from Yamato-75097 (L6), -793241 (L6) and -794046 (H5). Proc. NIPR Symp. Antarct. Meteorites 7, 197-216.
NAGAO,95: Nagao K., Eugster O., Weigel A., Miura Y.N., Koeberl C. and Takaoka N. (1995) Noble gases, chemical composition, and cosmic-ray exposure age of the Yamato-74357 Lodranite.Proc. NIPR Symp. Antarct. Meteorites 8, 297-303.
NAGAO,97: Nagao K., Nakamura T., Miura Y.N. and Takaoka N. (1997) Noble gases and mineralogy of primary igneous materials of theYamato-793605 shergottite.Antarct. Meteorite Res. 10, 125-142. See also: Nagao K., Nakamura T., Miura Y.N., Okazaki R. and Takaoka N. (1997) Noble gas studies of Martian lherzolitic meteorite Yamato 793605. Meteorit. Planet. Sci. 32, A95-A96.
NAGAO,99: Nagao K., Okazaki R., Sawada S. and Nakamura N. (1999) Noble gases and K-Ar-ages of five Rumuruti chondrites Yamato(Y)-75302, Y-791827, Y-793575, Y-82002, and Asuka-881988.Antarct. Meteorite Res. 12, 81-93.
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NAGAO,02: Nagao K. and Okazaki R. (2002) Noble gases of Yamato 981031 lunar meteorite.Antarctic Meteorites XXVII, 107-109.
NAGAO,03: K. Nagao and R. Okazaki (2003) Noble gases of Y980459 shergottite.In: Int. Symp. Evolution of Solar System Materials: A New Perspective from Antarctic Meteorites. NIPR Tokyo, 94.
NAKAMU,90: Nakamura Y., Ogata A. and Nagao K. (1990) An attempt to measure cosmogenic 81-Kr in ordinary chondrites.Abstr. 15th Symp. Antarct. Meteorites, Tokyo, 176-178.
NAKAMU,94: Nakamura N., Morikawa N., Hutchison R., Clayton R.N., Makeda T.K., Nagao K., Misawa K., Okano O., Yamamoto K., Yanai K. and Matsumoto M.(1994) Trace element and isotopic characteristiesof inclusions in the Yamoto ordinary chondrites Y-75097, Y-793241 and Y-794046.Proc. NIPR Symp. Antarct. Meteorites 7, 125-143.
NAKAMU,99: Nakamura T., Nagao K., and Takaoka N. (1999) Microdistribution of primordial noble gases in CM chondrites determined by in situ laser microprobe analysis: Decipherment of nebular processes. Geochim. Cosmochim. Acta 63, 241-255.
NAKAMU,99A: Nakamura T., Nagao K. K. Metzler and Takaoka N. (1999) Heterogeneous distribution of solar and cosmogenic noble gases in CM chondrites and implications for the formation of CM parent bodies.Geochim. Cosmochim. Acta 63, 257-273.
NAKAMU,03: Nakamura, T., Noguchi T., Zolensky M.E., and Tanaka M. (2003) Mineralogy and noble-gas signatures of the carbonate-rich lithology of the Targish Lake carbonaceous chondrite: evidence for an accretionary breccia.Earth Planet. Sci. Lett. 207, 83-101.
NAKAMU,04: Nakamura T. priv. com.NAKASH,02: Nakashima D., Nakamura T., Sekiya M. and Takaoka N. (2002) Cosmic-ray exposure age and
heliocentric distance of the parent body of H-chondrites Yamato-75029 and Tsukuba.Antarc. Meteorite Res. 15, 97-113.
NAMBA,00: Namba M., Maruoka T., Amari S. and Matsuda J. (2000) Neon isotopic composition of carbon residues from the Canyon Diablo iron meteorite.Antarct. Meteorite Res. 13, 170-176.
NAUTIY,81: Nautiyal C.M., Padia M.N., Venekatesan T.R. and Goswami J.N. (1981) Irradiation History of Antarctic Gas-Rich Meteorites.LPSC 13, 578-579.
NICHOL,91: Nichols Jr. R.H., Hohenberg C.M., Alexander O`D. C.M., Olinger C.T., and Arden J.W. (1991) Xenon and Neon from acid-resistant residues of Inman and Tieschitz. Geochim. Cosmochim. Acta 55, 2921-2936.
NIEMEY,79: Niemeyer S.(1979) 40-Ar - 39-Ar dating of inclusions from IAB iron meteorites. Geochim. Cosmochim. Acta 43, 1829-1840.
NIEMEY,83: Niemeyer S. (1983) I-Xe and 40-Ar-39-Ar Analyses of Silicate from the Eagle Station Pallasite and the Anomalous Iron Meteorite Enon.Geochim. Cosmochim. Acta 47, 1007-1012.
NISHII,80: Nishiizumi K., Regnier S., and Marti K. (1980) Cosmic Ray Exposure Ages of Chondrites, Pre-Irradiation and Constancy of Cosmic Ray Flux in the Past. Earth Planet. Sci. Lett. 50, 156-170 and priv. com.
NISHII,00: Nishiizumi K., Caffee M.W., Bogard D.D., Garrison D.H. and Kyte F.T. (2000) Noble Gases and Cosmogenic Radionuclides in the Eltanin Meteorite.Lunar Planet. Sci. 31, Abstr.# 2070 (CD-ROM).
NORD,70: Nord, R. (1970) Edelgasmessungen an Eisenmeteoriten. Dipl. Arbeit Univ. Heidelberg. Quoted in R. Bartoschewitz (1997) Aufschluss 48, 129-136.
NORD,72: Nord R. and Zaehringer J. (1972) Cosmogenic Helium, Neon, and Argon in 33 Iron Meteorites. Geochimii I Analiticeskoy Chimii, Akad. Nauk 59.
NYQUIS,67: Nyquist L.E., Huneke J.C. and Signer P. (1967) Spallogenic Rare Gases in the El Taco Meteorite. Earth Planet. Sci. Lett. 2, 241-248.
NYQUIS,69: Nyquist L.E., Begemann F., Huneke J.C. and Signer P.(1969) Short Exposure Ages of Meteorites Determined from the Spallogenic 36-Ar/38-Ar Ratios. Meteorite Research (Ed. P.M. Millman), 875-886. Reidel, Dordrecht.
NYQUIS,72: Nyquist L.E., Huneke J.C., Funk H. and Signer P. (1972) Thermal Release Characteristics of Spallogenic He, Ne, and Ar from the Carbo Iron Meteorite. Earth Planet. Sci. Lett. 14, 207-215.
NYQUIS,73: Nyquist L., Funk H., Schultz L. and Signer P. (1973) He, Ne and Ar in Chondritic Ni-Fe as Irradiation Hardness Sensors. Geochim. Cosmochim. Acta 37, 1655-1685.
OKAZAK,98: Okazaki R., Takaoka N., Nakamura T. and Nagao K. (1998) Cosmogenic noble gases in E-chondrites.23rd Symp. Antarct. Met. Tokyo 1998 (abstracts) 120-122.
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OKAZAK,00: Okazaki R., Takaoka N., Nakamura T. and Nagao K. (2000) Cosmic-ray exposure ages of enstatite chondrites.Antarct. Meteorite Res. 13, 153-169.
OKAZAK,01: Okazaki R., Takaoka N., Nagao K., Sekiya M. and Nakamura T. (2001) Noble-gas-rich chondrules in an enstatite meteorite.Nature 412, 795-798.
OKAZAK,03: Okazaki R., Nakamura T., Takaoka N. and Nagao K. (2003) Noble gases in urelites released by crushing.Meteorit. Planet. Sci. 38, 767-781.
OKAZAK,03A: Okazaki R., Nagao K., Imae N. and Kojima H. (2003) Noble gas signatures of Antarctic nakhlites, Yamato (Y) 000593, Y000749, and Y000802.Antarc. Meteorite Res. 16, 58-79.
OSTERT,86: Ostertag R., Stoeffler D., Bischoff A., Palme H., Schultz L., Spettel B., Weber H., Weckwerth G. and Waenke H. (1986) Lunar Meteorite Yamato-791197: Petrography, Shock History andChemical Composition. Mem. Nat.Inst. Polar. Res. (Tokyo), Spec.Issue 41, 17-44.
OTT,81: Ott U., Mack R. and Chang S. (1981) Noble-Gas-Rich Separates from the Allende Meteorite.Geochim. Cosmochim. Acta 45, 1751-1788.
OTT,85: Ott U., Loehr H.P. and Begemann F. (1985) Noble Gases and the Classification of Brachina. Meteoritics 20, 69-78.
OTT,85A:Ott U., Loehr H.P. and Begemann F. (1985) Trapped noble gases in 5 more ureilites and the possible role of Q.Lunar Planet. Sci. 16, 639-640.
OTT,88: Ott U. (1988) Noble Gases in SNC Meteorites Shergotty, Nakhla, Chassigny. Geochim. Cosmochim. Acta 52, 1937-1948.
OTT,92: Ott U. and Loehr H.P.(1992) Noble gases in the new Shergottite LEW 88516. Meteoritics 27, 271.
OTT,92A:Ott U., Loehr H.P. and Arden J.W.(1992) Diamonds in Abee: The noble gas signature. Meteoritics 27, 272.
OTT,93: Ott U., Loehr H.P. and Begemann F.(1992) Noble gases in Yamato- 75097 Inclusions: Similarities to Brachinites(only?). 18th Symp. Ant. Meteorites (Tokyo) Abstr., 236-239.
OTT,93A: Ott, U., Loehr H.P. and Begemann F. (1993) Solar noble gases in polymict ureilites and an update on ureilite noble gas data. Meteoritics 28, 415-416.
OTT,94: Ott U. and Loehr H.P. (1994) Stepped Combustion/Pyrolysis noble gas study of a (solar-gas-free ?) piece of ALH 85085.Meteoritics 29, 513-514.
OTTO,96: Otto J., Loeken Th., Weber H.W. and Schultz L. (1996) Gao, Gúenié, Souma – one, two, or three falls? Meteorit. Planet. Sci. 31, A103-A104.
PADIA,83: Padia J.T., Rao M.N., Venkatesan T.R. and Bhandari N. (1983) Noble Gases in Lahrauli Ureilite. Meteoritics 18, 369-370.
PADIA,84: Padia J.T., Nautiyal C.M., Rao M.N. and Venkatesan T.R. (1984) Noble gas composition in Ogi and Siena meteorites. Proc. Indian Acad.Sci. 93, 79-82.
PADIA,89: Padia J.T. and Rao M.N. (1989) Neon Isotpe Studies of Fayetteville and Kapoeta Meteorites and Clues to Ancient Solar Activity.Geochim. Cosmochim. Acta 53, 1461-1467.
PAETSC,00: Pätsch M., Altmeier M., Herpers U., Kosuch H., Michel R. and Schultz L. (2000) Exposure age of the new SNC meteorite Sayh al Uhaymir 005.Meteorit. Planet. Sci. 35, A124-A125 + priv. com. M. Pätsch.
PAETSC,00A: Pätsch M. (2000) Produkte der solaren kosmischen Strahlung in Meteoriten: Aufbau und Erprobung einer Laser-Extraktionsanlage für Edelgase.Dissertation Universität Mainz, pp. 113.
PAETSC,01: Pätsch M., Weber H.W. and Schultz L. (2001) Noble gas investigations of new meteorites from Africa.Lunar Planet. Sci. 32, Abst.# 1526, LPI Houston (CD-ROM).
PALIWA,01: Paliwal B.S., Mahajan R.R., Murty S.V.S., Shukla A.D., Shukla P.N., Bhandari N., Natarajan R., Hutchison R., Russell S. and Franchi I.A. (2001) Chemical and isotopic characteristics of the Didwana-Rajod (H5) chondrite.Meteorit. Planet. Sci. 36, 1249-1256.
PALMA,86: Palma R.L. and Heymann D. (1986) A Gas-Rich Fragment of the Allende Meteorite: "Solar" and "Planetary" Trapped Gases. LPSC 17, 638-639.
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PALMA,90: Palma R.L., and Heymann D. (1990) Neon in material separates of the Allende and Orgueil meteorites.LPSC 21, 928-929.
PALME,81: Palme H., Schultz L., Spettel B., Weber H.W., Waenke H., Christophe Michel-Levy M., and Lorin J.C. (1981) The Acapulco Meteorite: Chemistry, Mineralogy and Irradiation Effects.Geochim Cosmochim. Acta 45, 727-752.
PALME,88: Palme H., Wlotzka F., Spettel B., Dreibus G. and Weber H. (1988) Camel Donga: An Eucrite with High Metal Content.Meteoritics 23, 49-57.
PALME,91: Palme H., Spettel B., Jochum K.P., Dreibus G., Weber H., Weckwerth G., Waenke H., Bischoff A. and Stoeffler D.(1991) Lunar Highland meteorites and the composition of the lunar crust.Geochim. Cosmochim. Acta 55, 3105-3122.
PARK,01: Park J., Okazaki R., and Nagao K. (2001) Noble gases in the SNC meteorites: Dar al Gani 489, Sayd al Uhaymir 005 and Dhofar 019.Meteorit. Planet. Sci. 36, A54-A55.
PARK,01A: Park J., Okazaki R., Nagao K. and Yoneda S. (2001) Noble gases in Towada H-chondrite.Antarctic Meteorites XXVI, 125-127.See also Geochim. J. 37, 639 (2003).
PARK,03: Park J. and Nagao K. (2003) Noble gas studies of Dhofar 378 Martian meteorite.Meteorit. Planet. Sci. 38 (Subl.), A79.
PATZER,99: A. Patzer, P. Scherer, H.W. Weber and L. Schultz (1999) New exposure ages of chondrites: Short transfer times from asteroid belt to Earth?Lunar Planet. Sci. 30, Abstr. #1145 (CD-ROM) + priv. com.
PATZER,01: Patzer A. and Schultz L. (2001) Noble gases in estatite chondrites I: Exposure ages, pairing, and weathering effects.Meteorit. Planet. Sci. 36, 947-961. See also M&PS 37, 601-612 (2002).
PATZER,01A: New noble gas data of four enstatite chondrites and Zaklodzie.Meteorit. Planet. Sci. 36, A157-A158 + priv. com.
PATZER,02: Patzer A., Hill D.H., Boynton W.V., Franke L., Schultz L., Jull A.J.T., McHargue L.R., and Franchi I.A. (2002) Itqiy: A study of noble gases and oxygen osotopes including its terrestrial age and a comparison with Zaklodzie.Meteorit. Planet. Sci. 37, 823-833. See also PATZER,01A.
PATZER,03: Patzer A., Schultz L. and Franke L. (2003) New noble gas data of primitive and differentiated achondrites including NWA 011 and Tafassasset.Meteorit. Planet. Sci. 38, 1485-1497.
PEDRON,88: Pedroni A., Baur H., Wieler R. and Signer P. (1988) T-Tauri Irradiation of Kapoeta Grains ? LPSC 19, 913-915.
PEDRON,89: Pedroni A. (1989) Die korpuskulare Bestrahlung der Oberflaechen von Asteoriden; eine Studie der Edelgase in den Meteoriten Kapoeta und Fayetteville.Diss., ETH Zuerich, pp. 224. See also WIELER,00
PEDRON,91: Pedroni A. (1991) pers. com.PEDRON,93: Pedroni A. (1993) pers. com.PEDRON,94: Pedroni A. and Begemann F. (1994) On unfractionated solar gases in the H3-6 Meteorite Acfer
111.Meteoritics 29, 632-642.
PODOSE,71: Podosek F.A. (1971) Neutron-Activation Potassium-Argon Dating of Meteorites.Geochim. Cosmochim. Acta 35, 157-173.
PODOSE,72: Podosek F. (1972) Gas retention chronology of Petersburg and other meteorites.Geochim. Cosmochim. Acta 36, 755-772.
PODOSE,73A: Podosek F.A. and Huneke J.C. (1973) Argon 40-Argon 39 Chronology of Four Calcium-Rich Achondrites. Geochim. Cosmochim. Acta 37, 667-684.
PODOSE,73: Podosek F.A. (1973) Thermal History of Nakhlites by the 40-Ar-39-Ar-Method. Earth Planet. Sci. Lett. 19, 135-144.
POLNAU, 96: Polnau E., Eugster O., Thalmann Ch., Weigel A. and Marti K. (1996) Noble gas exposure ages of some selected chondrites. Meteorit. Planet. Sci. 31, A109-A110. see also Rubin et al. Meteorit. Planet. Sci. 31, 925-927 (1996).
POLNAU,98: Polnau, E., Eugster O. and Krähenbühl U. (1998) Further evidence for chondrule pre-exposure to cosmic rays in the solar nebula.Lunar Planet. Sci. 29, Abstr. #1121 (CD-ROM).
POLNAU,98A: Polnau, E. and Eugster O. (1998) Cosmic-ray produced, radiogenic, and solar noble gases in lunar meteorites Queen Alexandra Range 94269 and 94281.Meteorit. Planet. Sci. 33, 313-319.
POLNAU,99: Polnau E., Eugster O., Krähenbühl U. and Gnos E. (1999) Solar noble gases in a low density phase of the H chondrites Kalvesta and ALH76008: Evidence for a primitive plagioclase crust of the chondrite parent asteroid(s)?
22
Lunar Planet. Sci. 30, Abstr. #1242 (CD-ROM).POLNAU,99A: Polnau E., Eugster O., Krähenbühl U. and Marti K. (1999) Evidence for a precompaction
exposure to cosmic rays in a chondrule from the H6 chondrite ALH76008.Geochim. Cosmochim. Acta 63, 925-933. See also: Lunar Planet. Sci. 28 (1997) 1125-26.
POLNAU,01: Polnau E., Eugster O., Burger M., Krähenbühl U. and Marti K. (2001) Precompaction exposure of chondrules and implications.Geochim. Cosmochim. Acta 65, 1849-1866. See also: POLNAU,98
POMERO,67: Pomeroy J.H. (1967) Bogou Memorandum No. 2. Ed. Atomic Energy Commission, Washington D.C.
POUPEA,74: Poupeau G., Kirsten T., Steinbrunn F. and Storzer D. (1974) The Record of Solar Wind and Solar Flares in Aubrites.Earth Planet. Sci. Lett. 24, 229-241.
PUN,98: Pun A., Keil K., Taylor G.J. and Wieler R. (1998) The Kapoeta howardite: Implications for the regolith evolution of the howardite-eucrite-diogenite parent body.Meteorit. Planet. Sci. 33, 835-851.
RAI,02: Rai V.K., Murthy S.V.S., and Ott U. (2002) Nitrogen in diamond-free ureilite Allan Hills 78019: Clues to the origin of diamond in ureilites.Meteorit. Planet. Sci. 37, 1045-1055. See also RAI,03.
RAI,03: Rai V.K., Murthy S.V.S., and Ott U. (2003) Noble gases in ureilites: Cosmogenic, radiogenic, and trapped components.Geochim. Cosmochim. Acta 67, 4435-4456. See also RAI,02.
RAJAN,79: Rajan R.S., Huneke J.C., Smith S.P. and Wasserburg G.J. (1979) Argon-40-Argon-39 Chronology of Lithic Clasts from Kapoeta Howardite. Geochim. Cosmochim. Acta 43, 957-971.
RANCIT,67: Rancitelli L., Fisher D.E., Funkhouser J. and Schaeffer O.A. (1967) Potassium-Argon Dating of Iron Meteorites. Science 155, 999-1000.
RAO,83: Rao M.N., Nautiyal C.M., Padia J.T., Venkatesan T.R. and Bhandari N. (1983) Clues to Multiple Exposure History of Some Meteorites.Meteoritics 18, 382.
RAO,86: Rao M.N.,(1986) Rare Gases in Shergotty. Meteoritics 21, 488.
RAO,90: Rao M.N., Garrison D.H., and Bogard D.D. (1990) Activity of the ancient sun based on noble gas studies of etched Kapoeta mineral separates. LPSC 21, 993-994.
RAO,91: Rao M.N., Garrison D.H., Bogard D.D., Badhwar G.and Murali A.V.(1991) Composition of solar flare noble gases in meteorite parent body regolith. J. Geophys. Res. 96, 19321-19330.
RAO,92: Rao M.N., priv. com.RAO,97: Rao M.N., Garrison D.H., Palma R.L. and Bogard D.D. (1997) Energetic proton irradiation history of
the howardite parent body regolith and implications for ancient solar activity. Meteorit. Planet. Sci. 32, 531-543.
REASBE,55: Reasbeck P. and Mayne K.I. (1955) Cosmic Radiation Effects in Meteorites. Nature 176, 733-734.
RECCA,86: Recca S.I., Scott E.R.D., Keil K., Clayton R.N., Mayeda T.K., Huss G.I., Jarosewich E., Weeks K.S., Hasan F.A., Sears D.W.G., Wieler R. and Signer P. (1986) Ragland, an LL3.4 Chondrite Findfrom New Mexico. Meteoritics 21, 217-229.
REIMOL,04: Reimold W.U., Buchanan P.C., Ambrose D., Koeberl C., Franchi I., Lalkhan C., Schultz L. and Franke L. (2004) Thuathe, a new H4/5 chondrite from Lesotho. Meteorit. Planet. Sci. (in press).
REYNOL,60: Reynolds J.H. (1960) Isotopic Composition of Primordial Xenon. Phys. Rev. Lett. 4, 351-354.
REYNOL,64: Reynolds J.H. and Turner G. (1964) Rare Gases in the Chondrite Renazzo. J. Geophys. Res. 69, 3263-3281.
REYNOL,78: Reynolds J.H., Frick U., Neil J.M. and Phinney D.L. (1978) Rare-Gas-Rich Separates from Carbonaceous Chondrites.Geochim. Cosmochim. Acta 42, 1775-1797.
ROMSTE,96: Romstedt J., Schultz L. and Metzler K. (1996) Nuclar tracks and noble gases in ten unequilibrated H-chondrites from the Sahara.LPSC 27, 1139-1140.
ROWE,65: Rowe M.W., Bogard D.D. and Manuel O.K. (1965) Noble Gases from the Peace River, Lalande and Achilles Meteorites.Geochim. Cosmochim. Acta 29, 1199-1202.
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RUBIN,03: Rubin A.E., Kallemeyn G.W., Wasson J.T., Clayton R.N., Mayeda T.K., Grady M.M., Verchovsky A.B., Eugster O. and Lorenzetti S. (2003) Formation of metal and silicate globules in Gujba: a new Bencubbin-like meteorite fall.Geochim. Cosmochim. Acta 67, 3283-3298. See also EUGSTE,01.
RUSSEL,97: Russell S.S., Ott U., Alexander C.M.O’D., Zinner E.K., Arden J.W. and Pillinger C.T. (1997) Presolar silicon carbide from the Indarch (EH4) meteorite: Comparison with silicon carbide populations from other meteorite classes. Meteorit. Planet. Sci. 32, 719-732.
RUTSCH,62: Rutsch W. (1962) Dissertationsarbeit, Universitaet Bern.SARAFI,84: Sarafin R., Bonani G., Herpers U., Signer P., Hofmann H., Nessi M., Morenzoni E., Suter M.,
Wieler R. and Woelfli W. (1984) Spallogenic Nuclides in Meteorites By Conventional and Accelerator Mass Spectrometry.Nucl.Inst. Meth. B5, 411-414 and Wieler R. priv. com.
SARAFI,85: Sarafin R., Bourot-Denise M., Crozaz G., Herpers U., Pellas P., Schultz L. and Weber H.W. (1985) Cosmic Ray Effects in the Antarctic Meteorite Allan Hills A78084.Earth Planet. Sci. Lett. 73, 171-182.
SARAFI,85A:Sarafin R., Herpers U., Signer P., Wieler R., Bonani G., Hofmann H.J., Morenzoni E., Nessi M., Suter M. and Woelfli W. (1985) 10-Be, 26-Al, 53-Mn and Light Noble Gases in the Antarctic Shergottite EETA 79001(a). Earth Planet. Sci. Lett. 75, 72-76.
SCHAEF,59: Schaeffer O.A. and Fisher D.E. (1959) Cosmogenic Noble Gases in the Washington County Meteorite. Nature 183, 660-661.
SCHAEF,60: Schaeffer O.A. and Zaehringer J. (1960) Helium, Neon and Argon Isotopes in Some Iron Meteorites. Geochim. Cosmochim. Acta 19, 94-99.
SCHAEF,65: Schaeffer O.A., Stoenner R.W. and Fireman E.L. (1965) Rare Gas Isotope Contents and K-Ar-Ages of Mineral Concentrates from the Indarch Meteorite. J. Geophys. Res. 70, 209-213.
SCHAEF,65A:Schaeffer O.A. and Heyman D. (1965) Comparison of Cl-36-Ar-36 and Ar-39-Ar-38 Cosmic Ray Exposure Ages of Dated Fall Iron Meteorites. J. Geophys. Res. 70, 215-224.
SCHELH,87: Schelhaas N. (1987) Massenspektrometrische Analyse von Edelgasen in gewoehnlichen Chondriten. Diss. Univ. Mainz, 1987, pp. 104. See also: Schelhaas N., Ott U., and Begemann F. (1990) Trapped noble gases in unequilibrated ordinary chondrites. Geochim. Cosmochim. Acta 54, 2869-2882
SCHERE,93: Scherer P.(1993) Einfluss der terrestrischen Verwitterung auf den Edelgasgehalt und die Petrographie von Meteoriten; vergleichende Analysen von Chondriten aus polaren und subtropischen Trockenregionen. PhD-Thesis, Univ. Mainz, 1993.
SCHERE,96: Scherer P. (1996) priv com.SCHERE,97A: Scherer P., Schultz L., Neupert U., Knauer M., Neumann S., Leya I., Michel R., Mokos J.,
Lipschutz M.E., Metzler K., Suter M. and Kubik P.W. (1997) Allan Hills 88019: An Antarctic H-chondrite with a very long terrestrial age.Meteorit. Planet. Sci. 32, 769-773.
SCHERE,97B: Scherer P.and Schultz L. (1997) Noble gases, cosmic-ray exposure ages and pairing of H3-chondrites from the Sahara. Lunar Planet. Sci. 28, 1251-1252 + priv. com.
SCHERE,98: Scherer P., Zipfel J. und Schultz L. (1998) Noble gases in two new ureilites from the Saharan desert. Lunar Planet. Sci. 29, Abstr. #1383 (CD-ROM) + priv. com. M. Paetsch.
SCHERE,98A: Scherer P., Herrmann S. and Schultz L. (1998) Noble gases in twenty-one Saharan LL-chondrites: Exposure ages and possible pairings.Meteorit. Planet. Sci. 33, 259-265. See also HERRMA,96A.
SCHERE,98B: Scherer P. (1998) priv. com.SCHERE,98C: Scherer P., Paetsch M, and Schultz L. (1998) Noble-gas study of the new lunar highland
meteorite Dar al Gani 400.Meteorit. Planet. Sci. 33, A135-A136 + priv. com.
SCHERE,99: Scherer P. and L. Schultz (1999) Noble gases in the SNC meteorite Dar al Gain 476.Lunar Planet. Sci. 30, Abstr. #1244 (CD-ROM); see also J. Zipfel et al. (2000) Petrology and chemistry of the new shergottite Dar al Gain 476. Meteorit. Planet. Sci. 35, 95-106.
SCHERE,99A: Scherer P. and L. Schultz (1999) Noble gas record, collisional history and pairing of CV, CO, CK and other carbonaceous chondrites.Meteorit. Planet. Sci. 35, 145-154.
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SCHERE,99B: Scherer P., Pätsch M. and Schultz L. (1999) Noble Gases in 15 Meteorites from the Sahara: Eucrites, Ureilites, and Ordinary Chondrites.In: Workshop on Extraterrestrial Materials from Cold and Hot Deserts (L. Schultz et al. eds.), LPI Cont. 997, LPI Houston, 72-75.
SCHERE,99C: Scherer P. (1999) priv. com.SCHERE,01: Scherer P. and Schultz L. (2001) Noble gases in Baszkovka and Mt. Tazerzait.
Geol. Quart. 45, 313-314. See also WLOTZK,97.SCHLOT,77: Schlotz R. (1977) Messungen spallogener Nuklide im Mundrabilla Eisenmeteoriten.
Dipl. Arbeit, Univ. Heidelberg 1977.SCHLUE,02: Schlueter J., Schultz L., Thiedig F., Al-Mahdi B.O. and Abu Aghreb A.E. (2002) The Dar al Gani
meteorite field (Libyan Sahara): Geological setting, pairing of meteorites, and recovery density.Meteorit. Planet. Sci. 37, 1079-1093.
SCHNAB,98: Schnabel C., Terribilini D., Herzog G.F. and Eugster O. (1998) Exposure ages of Lodranite GRA95209 and 36Cl contents of 7 Lodranites and Acapulcoites.Lunar Planet. Sci. 29, Abstr. #1303 (CD-ROM).
SCHULT,67: Schultz L. (1967) Tritium Loss in Iron Meteorites. Earth Planet. Sci. Lett. 2, 87-89.
SCHULT,67A:Schultz L. and Hintenberger H. (1967) Edelgasmessungen an Eisenmeteoriten. Z. Naturforsch. 22a, 773-779.
SCHULT,69: Schultz L., Huneke J.C., Nyquist L.E. and Signer P.(1969) Spallogenic Rare Gases in Taenite Separated from Iron Meteorites.Meteorite. Research (Ed. P.M. Millman), 887-894.
SCHULT,70: Schultz L. (1970) priv. com.SCHULT,71: Schultz L., Funk H., Nyquist L. and Signer P. (1971) Helium Neon and Argon in Separated
Phases of Iron Meteorites.Geochim. Cosmochim. Acta 35, 77-88.
SCHULT,71A:Schultz L., Signer P., Pellas P. and Poupeau G. (1971) Assam: A Gas-Rich Hypersthene Chondrite. Earth Planet. Sci. Lett. 12, 119-123.
SCHULT,72: Schultz L., Signer P., Lorin J.C. and Pellas P. (1972) Complex Irradiation History of the Weston Chondrite.Earth Planet. Sci. Lett. 15, 403-410.
SCHULT,73: Schultz L. (1973) Die Bestrahlungsgeschichte Xenolithischer Chondrite. Habilitationsschrift ETH Zuerich, pp. 108.
SCHULT,73A: Schultz L. and Signer P. (1973A) priv. com.SCHULT,74: Schultz L. and Signer P. (1974) Helium, Neon und Argon in einigen Steinmeteoriten.
IN: Analyse Extraterrestrischen Materials (Edited W. Kiesl und H. Malissa,Jr.), 27-36. Springer, Wien.SCHULT,75: Schultz L., Frick U.,and Signer P. (1975) Noble Gases in Grain Size Fractions of Weston: A
Comparison with Lunar Soil Data. Meteoritics 10, 483 and priv. com.
SCHULT,76: Schultz L. and Signer P. (1976) Depth Dependence of Spallogenic He, Ne and Ar in the St. Severin Chondrite.Earth Planet. Sci. Lett. 30, 191-199.
SCHULT,77: Schultz L. and Signer P. (1977) Noble Gases in the St. Mesmin Chondrite: Implications to the Irradiation History of a Brecciated Meteorite. Earth Planet. Sci. Lett. 36, 363-371.
SCHULT,77A:Schultz L. and Signer P. (1977) Noble Gas Measurements in Matrix and Clast Samples from the Djermaia Chondrite. Meteoritics 12, 359 + priv. com.
SCHULT,78: Schultz L., Weber H.W., Spettel B., Hintenberger H. and Waenke H. (1978) Noble Gas and Element Distribution in Agglutinate Grain Size Separates of Different Density.Proc. Lunar Planet. Sci. Conf. 9th, 2221-2232.
SCHULT,82: Schultz L., Palme H., Spettel B., Waenke H. and Weber H.W. (1982) ALH 77081 an Unusual Stony Meteorite. Earth Planet. Sci. Lett. 61, 23-31.
SCHULT,84: Schultz L. and Freundel M. (1984) Terrestrial ages of Antarctic meteorites.Meteoritics 19, 310 + priv. Com.
SCHULT,85: Schultz L. (1985) Terrestrial 81-Kr-Ages of Four Yamato Meteorites.Mem. Nat. Inst. Polar. Res., Special Issue 41, 319-327.
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SCHULT,91: Schultz L., Weber H.W., and Begemann F. (1991) Noble gases in H-chondrites and potential differences between Antarctic and non-Antactic meteorites. Geochim. Cosmochim. Acta 55, 59-66.
SCHULT,92: Schultz L. and Weber H.W.(1992) Noble gases in metal and silicates of the IIE iron meteorite Watson.LPSC 23, 1229-1230. See also: Olson E., Davis A., Clarke Jr.R.S., Schultz L., Weber H.W.,Clayton R., Mayeda T., Jarosewich E., Sylvester P., Grossman L., Wang M., Lipschutz M.E., Steele I.M. and Schwade J. (1994) A new link in the IIE iron chain. Meteoritics 29, 200-213.
SCHULT,95: Schultz L. and Weber H.W. (1995) Noble gases in chondrites from a proposed meteoroid stream. LPSC 26, 1247-1248.
SCHULT,96: Schultz L. and Weber H.W. (1996) Noble gases and H chondrite meteoroid streams: No confirmation. J. Geophys. Res. 101, 21,177-21,181.
SCHULT,98: Schultz L., Scherer P., Spettel B., Wlotzka F., Zipfel J., Schlüter J., Merchel S., Herpers U., Newton J., Franchi I.A., Pillinger C.T., Leya I., Neumann S., Neupert U., Michel R., Kubik P.W., Synal H.-A., Bonani G., Hajdas I., Ivy-Ochs S.,and Suter M. (1998) Ten new meteorites from the Ténéré desert (Niger): Classification, nobles gases, cosmogenic radionuclides and terrestrial ages. Meteorit. Planet. Sci. 33, A138 + priv. com..
SCHULT,99: Schultz L. (1999) priv. com.SCHULT,00: Schultz L. (2000) priv. com.SCHULT,02: Schultz L. (2002) priv. com.SCHULT,03: Schultz L., Franke L. and Weber H.W. (2003) Noble gases in 55 stone meteorites: A comparison
of „old“ and „new“ data and implications for exposure age distributions.Meteorit. Planet. Sci. 38 (Suppl.), A37 and priv. com.
SCHULT,03A: Schultz L. and Franke L. (2003) priv. com.SCHULT,03B: Schultz L., Franke L., Welten K.C., Nishiizumi K. and Jull A.J.T. (2003) Cosmogenic records in
18 ordinary chondrites from the Dar al Gani region, Libya: I Noble gases.Lunar. Planet. Sci. XXXIV, Abstr.# 1398, LPI Houston (CD-ROM).
SCHULT,03C: Schultz L. and Franke L. (2003) The noble gas record of central Europe’s stone meteorites.Meteorit. Planet. Sci. 38 (Subl.), A38 and priv. com.
SCHULT,04: Schultz L. (2004) priv. com.SCHULT,04A: Schultz L., Weber H.W. and Franke L. (2004) Rumuruti(R)-chondrites: Noble gases, exposure
ages, pairing, and parent body history.To be published, see also WEBER 98, 98A
SCHULT,04B: Schultz L., Franke L. and Bevan A. (2004) Noble gases in 10 Nullabor chondrites.To be published.
SCHWEN,04: Schwenzer S. (2004) Marsmeteorite: Edelgase in Mineralseparaten, Gesamtgesteinen und terrestrischen Karbonaten.Dissertation Univ. Mainz, pp. 143 + Anhang.
SCORZE,98: Scorzelli R.B., Christophe Michel-Levy M., Gilabert E., Lavielle B., Souza Azevedo I., Vieira V.W., Costa V. V. and Araujo M.A.B. (1998) The Campos Sales meteorite from Brazil: A lightly shocked L5 chondrite fall.Meteorit. Planet. Sci. 33, 1335-1337.
SCOTT,88: Scott E.R.D., Brearley A.J., Keil K., Grady M.M., Pillinger C.T., Clayton R.N., Mayeda T.K., Wieler R. and Signer P. (1988) Nature and Origin of C-Rich Ordinary Chondrites and Chondritic Clasts.18th Proc. Lun. Plan. Sci. Conf., 513-523.
SHIH,82: Shih C.-Y., Nyquist L.E., Bogard D.D., Mckay G.A., Wooden J.L., Bansal B.M., Wiesman H. (1982) Chronology and Petrogenesis of Young Achondrites, Shergotty, Zagami and ALHA77005: Late Magmatism on a Geologically Active Planet. Geochim. Cosmochim. Acta 46, 2323-2344.
SHIMA,73: Shima M. and Hintenberger H. (1973) Chemical Composition and Rare Gas Content of Four New Detected Antarctic Meteorites. Earth Planet. Sci. Lett. 19, 246-249.
SHIMA,83: Shima M., Okada A., Takaoka N. and Wakabayashi F. (1983) Chemical, Petrographical, Mineralogical and Noble Gas Studies on Xinyang Chinese Chondrite.Bull. Nat. Sci. Mus. Tokyo, Ser. E, 6, 1-12.
SHIMA,83A: M. Shima, F. Wakabayashi, N. Takaoka and A. Okada (1983) Quingzhen enstatite chondrite.Meteoritics 18, 395-396.
SHIMA,84: Shima M., Okada A., Takaoka N. and Murayama S. (1984) Chemical, Petrographical, Mineralogical and Noble Gas Studies on the Chondrite Higashi-Koen. Bull. Natn. Sci. Mus. Tokyo, Ser. E, 7, 1-13. Also: Meteoritics 19 (1984), 185-286.
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SHIMA,94: Shima M., Honda M., Okada A., Miura Y.N. and Ebihara M. (1994) The chondrite Senboku: Is this the same fall as Shiraiwa?Meteoritics 29, 532.
SHUKOL,92: Shukolyukov Yu.A. and Petaev M.I.(1992) Noble gases in the Omolon pallasite. LPSC 33, 1297-1298. Also: Geochim. Int. 30, 9-25 (1993).
SHUKOL,93: Shukolyukov Yu.A., Klimenko Yu.V., Kolyasnikov Yu.A., Smolyar M.I. and Simonovskij V.I. (1993) Noble gases in olivine from the Omolon pallasite. Geochim. Int. 30, 9-25.
SHUKOL,95: Shukolyukov A. (1995) priv. com. See also Shukolyukov A. and Begemann F. (1996) Cosmogenic and fissionogenic noble gases and 81Kr-Kr exposure age cluster of eucrites. Meteorit. Planet. Sci. 31, 60-72 (1996).
SHUKOL,95A:Shukolyukov Y.A., Assonov S.S., Smoliar M.I. and Kolesnikov E.M. (1995) Noble gases and strontium isotopes in the unique meteorite Divnoe. Meteoritics 30, 654-660.
SHUKOL,00: Shukolyukov Yu,A., Nasarov M.A. and Schultz L. (2000) Dhofar 019: A shergottite with an approximately 20-million-year exposure age.Meteorit. Planet. Sci. 35, A58 + priv. com.
SHUKOL,01: Y.A. Shukolyukov, M.A. Nazarov, M. Pätsch and L. Schultz (2001) Noble gases in three lunar meteorites from Oman.Lunar. Planet. Sci. XXXII, Abstr.# 1502, LPI Houston (CD-ROM).
SHUKOL.02: Shukolyukov Yu.A., Nazarov, M.A. and Schultz L. (2002) A new Martian meteorite: the Dhofar 019 shergottite with an exposure age of 20 million years.Solar System Res. 36, 125-135. See also Shukol,00.
SIGNER,60: Signer P. and Nier A.O. (1960) The Distribution of Cosmic-ray-Produced Rare Gases in Iron Meteorites. J. Geophys. Res. 65, 2947-2964.
SIGNER,62: Signer P. and Nier A.O. (1962) The Measurement and Interpretation of Rare Gas Concentrations in Iron Meteorites. In: Researches on Meteorites, 7-35. (Ed. C.B. Moore), Wiley 1962.
SIGNER,63: Signer P. and Suess H. (1963) Rare Gases in the Sun, in the Atmosphere, and in Meteorites.IN: Earth Science and Meteoritics (Edited J. Geiss and E.D. Goldberg), 241-272. North-Holland, Amsterdam.
SIGNER,85: Signer P. (1985) priv. com.SIGNER,85A: Signer P., Sarafin R., Schultz L., Weber H. and Wieler R. (1985) Edelgase und 10-B in Ybbsitz;
Hinweise auf die Geschichte des Meteoriten. Ann. Naturh. Mus. Wien 87a, 53-60.
SISODI,01: Sisodia M.S., Shukla A.D., Suthar K.M., Mahajan R.R., Murty S.V.S., Shukla P.N., Bhandari N.. and Natarajan R. (2001) The Lohawat howardite: Mineralogy, chemistry and cosmic effects.
Meteorit. Planet. Sci. 36, 1457-1466.SMITH,73: Smith S. and Fireman E.L. (1973) Ages of Eight Recently Fallen Meteorites.
J. Geophys. Res. 78, 3249-3250.SMITH,75: Smith S.P. and Huneke J.C. (1975) Cosmogenic Neon Produced from Sodium in Meteoritic
Minerals. Earth Planet. Sci. Lett. 27, 191-199.SMITH,77: Smith S.P., Huneke J.C., Rajan R.S. and Wasserburg G.J. (1977) Neon and Argon in Allende
Meteorite. Geochim. Cosmochim. Acta 41, 627-647.
SMITH,78: Smith S.P., Huneke J.C. and Wasserburg G.J. (1978) Neon in Gas-Rich Samples of the Carbonaceous Chondrites Mokoia, Murchison and Cold Bokkeveld. Earth Planet. Sci. Lett. 39, 1-13.
SRINIV,77: Srinivasan B., Gros J. and Anders E. (1977) Noble Gases in Separated Meteoritic Minerals: Murchison (C2), Ornans (C3), Karoonda (C5) and Abee (E4). J. Geophys. Res. 82, 762-778.
SRINIV,77A: Srinivasan B. (1977) Noble Gases in Six Ordinary Chondrites: Comparsion of Exposure Ages from Noble Gases with 26-Al Ages. Geochim. Cosmochim. Acta 41, 977-983.
SRINIV,77B:Srinivasan B. and Anders E. (1977) Noble Gases in the Unique Chondrite, Kakangari. Meteoritics 12, 417-424.
SRINIV,78: Srinivasan B., Lewis R.S. and Anders E. (1978) Noble Gases in the Allende and Abee Meteorites and a Gas-Rich Mineral Fraction: Investigation By Stepwise Heating. Geochim. Cosmochim. Acta 42, 183-198.
SRINIV,78A: Srinivasan B. and Anders E. (1978) Noble Gases in the Murchison Meteorite: Possible Relics of S-Process Nucleosynthesis.Science 201, 51-56.
STAUFF,61: Stauffer H. (1961) Primordial Argon and Neon in Carbon aceous Chondrites and Ureilites. Geochim. Cosmochim. Acta 24, 70-82.
27
STAUFF,61A:Stauffer H. (1961) Cosmogenic Argon and Neon in Stone Meteorites. J. Geophys. Res. 66, 1513-1521.
STAUFF,62: Stauffer H. (1962) On the Production Ratios of Rare Gas Isotopes in Stone Meteorites. J. Geophys. Res. 67, 2023-2028.
STAUFF,62A:Stauffer H. and Urey H.G. (1962) Multiple fall of meteorites photographed. 3. Rare gas isotopes in the Velka stone meteorite.Bull. Astron. Inst. Czechosl. 13, 106.
STELZN,97: Stelzner Th., Heide K., Bischoff A., Weber D., Merchel S., Herpers U., Faestermann T., Knie K., Korschinek G., Kubik P.W., Suter M., Neumann S., Michel R., Scherer P., Schultz L. and Jull A.J.T. (1997) Rincon: A new L6 chondrite find from Argentina.Chem. Erde 57, 297-309.
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STEPHA,88: Stephan T. and Jessberger E.K. (1988) 40-Ar-39-Ar Ages of Types 3 and 4, L and H Chondrites from Antarctica. Meteoritics 23, 373-377, and priv. com.
STOENN,58: Stoenner R.W. and Zaehringer J. (1958) Potassium-Argon Age of Iron Meteorites. Geochim. Cosmochim. Acta 15, 40-50.
SUGIUR,95: Sugiura N. and Zashu S.(1995) Nitrogen, Neon and Argon in the PCA91467, an ALH85085-like chondrite. LPSC 16, 1371.
SUGIUR,95A: Sugiura N. and Zashu S. (1995) Isotopic composition of nitrogen in the PCA 91002 R group chondrite.Proc. NIPR Symp. Antarct. Meteorites 8, 273-285.
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SUTHAR,95: Suthar K.M., Clement C.J., Murty S.V.S. and Bhandari N. (1995) Cosmogenic effects in Mbale chondrite. LPSC 26, 1379-1380. See also MURTY,98.
SWINDL,86: Swindle T.D., Caffee M.W. and Hohenberg C.M. (1986) Xenon and Other Noble Gases in Shergottites. Geochim. Cosmochim. Acta 50, 1001-1015.
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SWINDL,89: Swindle T.D., Nichols R. and Olinger C.T. (1989) Noble Gases in the Nakhlite Governador Valadares. LPSC 20, 1097-1098.
SWINDL,90: Swindle T.D., Garrison D.H., Goswami J.N., Hohenberg C.M., Nichols R.H., and Olinger C.T. (1990) Noble gases in the howardites Bholghati and Kapoeta. Geochim. Cosmochim. Acta 54, 2183-2194.
SWINDL,95: Swindle T.D., Grier J.A. and Burkland M.K. (1994) Noble gases in orthopyroxenite ALH 84001: A different kind of martian meteorite with an atmospheric signature. Geochim. Cosmochim. Acta 59, 793-801.
SWINDL,95A: Swindle T.D., Burkland M.K. and Grier J.A. (1995) Noble gases in the lunar meteorites Calcalong Creek and Queen Alexandra Range 93069.Meteoritics 30, 584-585.
SWINDL,96: Swindle T.D., B. Li and Kring D.A. (1996) Noble gases in martian meteorite QUE94201. Lunar Planet. Sci. 27, 1297-1298.
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TAKAOK,80: Takaoka N. and Nagao K. (1980) Mass Spectrometrical Study of Rare Gas Compositions and Neutron Capture Effects in Yamato-74191 (L3) Chondrite.
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Z. Naturforsch. 35a, 29-36.TAKAOK,80A:Takaoka N. and Nagao K. (1980) Neutron Capture Effects in Yamato-74191 and Rare Gas
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TAKAOK,81: Takaoka N., Saito K., Ohba Y. and Nagao K. (1981) Rare Gas Studies of Twenty-Four Antarctic Chondrites. Mem. Natl. Inst. Pol. Res., Spec. Issue 20, 264-275.
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TAKAOK,85A:Takaoka N. (1985) Noble Gases in Yamato-791197: Evidence for Lunar Highland Origin. Mem. Natl. Inst. Polar Res. (Tokyo), Spec. Issue 41, 124-132.
TAKAOK,86: Takaoka N. (1986) Noble-Gas Study of Lunar Meteorite Y82192.11th Symp. Ant. Met. (Abstracts), Tokyo 1986, 49-52.
TAKAOK,87: Takaoka N. (1987) Noble Gas Analysis of Yamato-74013 (Di).Abst. 12th Symp. Antarc. Met. Tokyo, 112-114.
TAKAOK,87A:Takaoka N., (1987) Noble Gas Studies of Yamato-82192 Lunar Meteorite. Mem. Natl. Inst. Polar. Res. (Tokyo), Spec. Issue 46, 96-104.
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WACKER,86: Wacker J.F. (1986) Trapped Noble Gases in the Low Shock Ureilite Roosevelt Country 027. Meteoritics 21, 528-529.
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