Author index (Paneth Kolloquium, 2013)

Author Title PDF
*corresponding author
Adam*, C.Planets around higher-mass stars?#0020
Ahmedi, M.Achondrite NWA 7325: A spectral and cosmochemical [...]#0037
Altherr, R.Petrographic studies and 53Mn-53Cr Chronometry of [...]#0095
Alwmark, C.A short cosmic-ray exposure age for an olivine gra[...]#0068
Alwmark, C.An exotic Ne component in ordinary chondritic chro[...]#0053
Audétat, A.The dependence of siderophile element partitioning[...]#0032
Baecker, B.Noble gases in Antartic Micrometeorites#0030
Bajt, S.A short cosmic-ray exposure age for an olivine gra[...]#0068
Barth, M.Meteoritic calcite oxygen isotope systematics – [...]#0033
Barth*, M.Aqueously altered minerals in CM2 chondrites Marib[...]#0052
Bast*, R.Excess 176Hf in differentiated meteorites not caus[...]#0009
Becker , H.Mn-Cr systematics in the components of ordinary an[...]#0029
Becker, H.Constraints from HSE and S-Se-Te abundances on the[...]#0028
Becker, H.Selenium and Tellurium in Chondrites#0099
Becker, H.The abudance of W-180 in solar system materials: r[...]#0054
Beitz*, E.Experiments on the consolidation of chondrites and[...]#0005
Bendel, V.Heavy REE fractionation in chondrites, achondrites[...]#0106
Bender*, N.S.Sample dissolution methods for Hf-W analysis#0008
Bennett, J. W.Pre-irradiation of chondrules in the Early Solar S[...]#0057
Berg, T.Origin of Refractory Metal Nuggets (RMNs): Did the[...]#0003
Beyersdorf-Kuis*, U.Pre-irradiation of chondrules in the Early Solar S[...]#0057
Bischoff, A.Accessory Ca-phosphates: major hosts for halogens [...]#0071
Bischoff, A.Achondrite NWA 7325: A spectral and cosmochemical [...]#0037
Bischoff, A.Aqueously altered minerals in CM2 chondrites Marib[...]#0052
Bischoff, A.Chemical and mineralogical studies of the CV3-chon[...]#0078
Bischoff, A.Hf-W ages and REE systematics of eucrite zircon#0069
Bischoff, A.Major and minor element systematics in enstatite c[...]#0081
Bischoff, A.Meteoritic calcite oxygen isotope systematics – [...]#0033
Bischoff, A.Noble gas exposure ages of six non-ureilitic frag-[...]#0070
Bischoff, A.Selenium and Tellurium in Chondrites#0099
Bischoff, A.Textural and chemical studies of selected ureiliti[...]#0088
Bizzarro, M.The Hf-W chronology of FUN CAIs#0006
Blum, J.Experiments on the consolidation of chondrites and[...]#0005
Boesenberg, U.A synchrotron study of presolar graphite spheres.#0082
Boffa Ballaran, T.Ti3+ in hibonite - fingerprint of oxygen fugacity [...]#0043
Boffa Ballaran*, T.The Influence of Mantle Rheology on the Early Diff[...]#0036
Boyet, M.Petrological and cosmochemical evidence for format[...]#0010
Brenker, F.E.A closer look at the schlieren features of harzbur[...]#0077
Brenker, F.E.A synchrotron study of presolar graphite spheres.#0082
Brenker, F.E.NWA-6693: An ungrouped achondrite#0093
Brenker, F.E.Preliminary TEM and NanoSIMS analysis of an anhydr[...]#0091
Brenker*, F.E.Chemical characterization of high pressure shock v[...]#0100
Breuer, D.Magma ocean in planetesimals – the case of Vesta#0040
Breuer, D.Thermo-chemical evolution of ice-silicate bodies: [...]#0064
Breutmann*, GK-Na fractionation in equilibrated LL chondrites#0044
Budde*, G.Hf-W chronometry of ureilites#0031
Burghammer, M.A synchrotron study of presolar graphite spheres.#0082
Burkhardt, C.Nucleosynthetic W isotope anomalies and Hf-W chron[...]#0023
Burkhardt, C.Nucleosynthetic isotope anomalies in meteorites: e[...]#0097
Busemann, H.A short cosmic-ray exposure age for an olivine gra[...]#0068
Busemann, H.An exotic Ne component in ordinary chondritic chro[...]#0053
Busemann, H.Noble gases in the HF-soluble fraction of the CI c[...]#0065
Böttger, U.A short cosmic-ray exposure age for an olivine gra[...]#0068
Cartwright, J. A.Pre-irradiation of chondrules in the Early Solar S[...]#0057
Chaussidon, M.Lithophile elements in IVB iron meteorites#0096
Chaussidon, M.Meteoritic calcite oxygen isotope systematics – [...]#0033
Connelly, J. N.The Hf-W chronology of FUN CAIs#0006
Di Rocco, T.Timing of formation of reduction rims in ureilite [...]#0083
Di Rocco*, T.Experimental investigation of refractory litophile[...]#0085
Di Rocco*, T.Oxygen isotope exchange between chondrule melt and[...]#0084
Dingwell, D.B.Experimental investigation of Cd and Ga isotope fr[...]#0019
Dingwell, DBTemperature- and fO2-Dependence of the Re-Condensa[...]#0072
Dittrich*, K.The final assembly step of planetesimal swarms#0111
Dohmen, R.A new approach combining diffusion chronometry & t[...]#0056
Dohmen, R.Development and physical reason of IR spectral fea[...]#0050
Dohmen, R.In Situ δ56Fe Analysis of Chondrite Components#0079
Dohmen, RTemperature and timescales of alteration in chondr[...]#0101
Duan, X.Trace element analysis of iron meteorites using qu[...]#0007
Dullemond, C.P.A large-scale shock model for chondrule formation.#0041
Dullemond*, C.P.Chondrule Formation: Nebular Gas Confinement of Im[...]#0001
Dullemond*, C.P.The Role of Ice in Planet Formation#0002
El Goresy, A.Petrographic studies and 53Mn-53Cr Chronometry of [...]#0095
El Goresy*, A.Petrological and cosmochemical evidence for format[...]#0010
Elfers*, B.-M.Assessment of Hf & W isotope compositions in chond[...]#0055
Errmann, R.Constraints on solar system formation from young e[...]#0012
Errmann*, R.Search for young transit planets in Trumpler 37#0013
Ertel-Ingrisch, W.Experimental investigation of Cd and Ga isotope fr[...]#0019
Ertel-Ingrisch*, WTemperature- and fO2-Dependence of the Re-Condensa[...]#0072
Falkenberg, G.A synchrotron study of presolar graphite spheres.#0082
Fischer-Gödde, M.Excess 176Hf in differentiated meteorites not caus[...]#0009
Fischer-Gödde, M.Hf-W chronometry of ureilites#0031
Fischer-Gödde, M.Nucleosynthetic W isotope anomalies and Hf-W chron[...]#0023
Fischer-Gödde, M.Palladium-silver ages for IIIAB iron meteorites.#0092
Fischer-Gödde, M.Resolution of small differences in the time of cor[...]#0045
Fischer-Gödde, M.Ti Isotope Heterogeneities among Chondrules#0094
Fischer-Gödde*, M.Nucleosynthetic isotope anomalies in meteorites: e[...]#0097
Fonseca*, R. O. C.Redox controls on tungsten and uranium crystal/sil[...]#0089
Friedrichs, B.Differences in D17O between Earth, Moon and enstat[...]#0108
Frost, D. J.Metal-silicate partitioning of the HSEs in S-beari[...]#0076
Frost, D.J.Chemical evolution of planetesimal cores during th[...]#0018
Frost, D.J.The Influence of Mantle Rheology on the Early Diff[...]#0036
Frost, D.J.The dependence of siderophile element partitioning[...]#0032
Fujiya, W.A short cosmic-ray exposure age for an olivine gra[...]#0068
Fujiya*, W.Lithium-boron and helium-neon analyses on asteroid[...]#0035
Funk*, C.LA-ICP-MS method for the determination of trace el[...]#0098
Funk*, C.Selenium and Tellurium in Chondrites#0099
Gail, H.-P.Development and physical reason of IR spectral fea[...]#0050
Gail, H.-P.Growth of the H chondrite parent body and thermal [...]#0016
Garrevoet, J.A synchrotron study of presolar graphite spheres.#0082
Gellissen*, M.fO2 and temperature guided alkali and Mn loss from[...]#0062
German*, B.R.Distinction between the Chelyabinsk meteorite 2013[...]#0061
German*, B.R.Is the Tunguska 1908 event caused by global 3-min.[...]#0086
German*, B.R.No new evidence for meteoritic origin of the Tungu[...]#0059
Giannini*, M.Ti3+ in hibonite - fingerprint of oxygen fugacity [...]#0043
Gilmour, H.A short cosmic-ray exposure age for an olivine gra[...]#0068
Gilmour, J. D.81Kr – Kr Analyses of Individual CAIs in the All[...]#0087
Glotch, T.D.The nature of maskelynite: a multi-technique appro[...]#0049
Goldmann*, A.In Situ δ56Fe Analysis of Chondrite Components#0079
Gramse*, T.Chemical and mineralogical studies of the CV3-chon[...]#0078
Gurenko, A.Meteoritic calcite oxygen isotope systematics – [...]#0033
Günther, D.LA-ICP-MS method for the determination of trace el[...]#0098
Hall, S.In Situ δ56Fe Analysis of Chondrite Components#0079
Harries*, D.A TEM-NanoSIMS study of chromium nitride in CM cho[...]#0048
Harries*, D.The mineralogy and defect microstructure of Hayabu[...]#0047
Heitmann, U.A short cosmic-ray exposure age for an olivine gra[...]#0068
Helbert, J.morlokan@Achondrite NWA 7325: A spectral and cosmochemical [...]#0037
Henke*, S.Growth of the H chondrite parent body and thermal [...]#0016
Herwartz, D.Understanding multiple stable and non-radiogenic i[...]#0107
Herwartz*, D.Differences in D17O between Earth, Moon and enstat[...]#0108
Heuser, A.Redox controls on tungsten and uranium crystal/sil[...]#0089
Hiesinger, H.Achondrite NWA 7325: A spectral and cosmochemical [...]#0037
Hillier*, J.K.Stardust Interstellar Preliminary Examination: Lab[...]#0067
Holst*, J. C.The Hf-W chronology of FUN CAIs#0006
Holzheid, A.fO2 and temperature guided alkali and Mn loss from[...]#0062
Hopp, J.Petrographic studies and 53Mn-53Cr Chronometry of [...]#0095
Hopp*, J.I-Xe chronology of enstatite chondrites#0046
Hoppe, P.A TEM-NanoSIMS study of chromium nitride in CM cho[...]#0048
Hoppe, P.Isotopic and Mineralogical Characterization of Pre[...]#0060
Hoppe, P.Preliminary TEM and NanoSIMS analysis of an anhydr[...]#0091
Horstmann, M.Aqueously altered minerals in CM2 chondrites Marib[...]#0052
Horstmann, M.Major and minor element systematics in enstatite c[...]#0081
Horstmann, M.Textural and chemical studies of selected ureiliti[...]#0088
Horstmann*, M.Meteoritic calcite oxygen isotope systematics – [...]#0033
Huber, L.Noble gas exposure ages of six non-ureilitic frag-[...]#0070
Hübers, H.W.A short cosmic-ray exposure age for an olivine gra[...]#0068
Jadhav, M.A synchrotron study of presolar graphite spheres.#0082
Jaret*, S.J.The nature of maskelynite: a multi-technique appro[...]#0049
Jenner, F.Heavy REE fractionation in chondrites, achondrites[...]#0106
Johansen, A.Chondrule Formation: Nebular Gas Confinement of Im[...]#0001
John, T.Accessory Ca-phosphates: major hosts for halogens [...]#0071
Jørgensen, J. K.The Hf-W chronology of FUN CAIs#0006
Kadlag*, Y.Constraints from HSE and S-Se-Te abundances on the[...]#0028
Kadlag*, Y.Mn-Cr systematics in the components of ordinary an[...]#0029
Kitze, M.Constraints on solar system formation from young e[...]#0012
Kitze*, M.Bayesian Transit Detection#0014
Klahr, H.The final assembly step of planetesimal swarms#0111
Kleine, T.Hf-W chronometry of ureilites#0031
Kleine, T.Nucleosynthetic W isotope anomalies and Hf-W chron[...]#0023
Kleine, T.Nucleosynthetic isotope anomalies in meteorites: e[...]#0097
Kleine, T.Palladium-silver ages for IIIAB iron meteorites.#0092
Kleine, TTi Isotope Heterogeneities among Chondrules#0094
Kleine*, T.Resolution of small differences in the time of cor[...]#0045
Kremser*, V.Experimental investigation of Cd and Ga isotope fr[...]#0019
Krot, A. N.The Hf-W chronology of FUN CAIs#0006
Krot, A.N.Preliminary TEM and NanoSIMS analysis of an anhydr[...]#0091
Kroupa, P.Dynamical analysis of transient induced vorticity [...]#0034
Kruijer, T.S.Hf-W chronometry of ureilites#0031
Kruijer, T.S.Nucleosynthetic isotope anomalies in meteorites: e[...]#0097
Kruijer, T.S.Resolution of small differences in the time of cor[...]#0045
Kruijer*, T.S.Nucleosynthetic W isotope anomalies and Hf-W chron[...]#0023
Lander*, M.NWA-6693: An ungrouped achondrite#0093
Langenhorst, F.A TEM-NanoSIMS study of chromium nitride in CM cho[...]#0048
Langenhorst, F.The mineralogy and defect microstructure of Hayabu[...]#0047
Langenhorst, F.Ti3+ in hibonite - fingerprint of oxygen fugacity [...]#0043
Larsen, K.The Hf-W chronology of FUN CAIs#0006
Laurenz*, V.Metal-silicate partitioning of the HSEs in S-beari[...]#0076
Le Guillou*, CTemperature and timescales of alteration in chondr[...]#0101
Leitner*, J.Isotopic and Mineralogical Characterization of Pre[...]#0060
Leya, I.Exposure history of Shişr 033, RaS 221, and RaS 2[...]#0051
Leya, I.Studying the constancy of galactic cosmic rays usi[...]#0027
Lin, Y.Petrological and cosmochemical evidence for format[...]#0010
Ludwig, T.Petrographic studies and 53Mn-53Cr Chronometry of [...]#0095
Mallmann, G.Redox controls on tungsten and uranium crystal/sil[...]#0089
Marone, F.A short cosmic-ray exposure age for an olivine gra[...]#0068
Marquardt, C.Experimental investigation of refractory litophile[...]#0085
Marquardt*, C.Timing of formation of reduction rims in ureilite [...]#0083
Matthes*, M.Palladium-silver ages for IIIAB iron meteorites.#0092
Meier, M.M.M.Noble gas exposure ages of six non-ureilitic frag-[...]#0070
Meier*, M.M.M.A short cosmic-ray exposure age for an olivine gra[...]#0068
Meier*, M.M.M.An exotic Ne component in ordinary chondritic chro[...]#0053
Melosh, H. J.Melting during planetary collisions: influence of [...]#0022
Merchel, S.Studying the constancy of galactic cosmic rays usi[...]#0027
Metzler*, K.Chondrule size sorting prior to cluster chondrite [...]#0042
Mezger, K.Accessory Ca-phosphates: major hosts for halogens [...]#0071
Mezger, K.Excess 176Hf in differentiated meteorites not caus[...]#0009
Mezger, K.Hf-W ages and REE systematics of eucrite zircon#0069
Mezger, K.Sample dissolution methods for Hf-W analysis#0008
Miyahara, M.Petrological and cosmochemical evidence for format[...]#0010
Mohr, P.Measurements of high-temperature optical constants[...]#0112
Morlok*, A.Achondrite NWA 7325: A spectral and cosmochemical [...]#0037
Mostefaoui, S.Petrographic studies and 53Mn-53Cr Chronometry of [...]#0095
Mutschke*, H.Measurements of high-temperature optical constants[...]#0112
Müller, TTemperature and timescales of alteration in chondr[...]#0101
Münker, C.Development of a High Precision Protocol for Tanta[...]#0058
Münker, C.Experimental investigation of Cd and Ga isotope fr[...]#0019
Münker, C.Heavy REE fractionation in chondrites, achondrites[...]#0106
Münker, C.The abudance of W-180 in solar system materials: r[...]#0054
Münker, CAssessment of Hf & W isotope compositions in chond[...]#0055
Nagashima, K.The Hf-W chronology of FUN CAIs#0006
Neuhaeuser*, R.Constraints on solar system formation from young e[...]#0012
Neuhaeuser*, R.Young transiting planets#0011
Neuhäuser, R.Search for young transit planets in Trumpler 37#0013
Neumann*, W.Magma ocean in planetesimals – the case of Vesta#0040
Neumann*, W.Thermo-chemical evolution of ice-silicate bodies: [...]#0064
Nimmo, F.Melting during planetary collisions: influence of [...]#0022
Nordlund, Å.The Hf-W chronology of FUN CAIs#0006
Nottingham*, M. 81Kr – Kr Analyses of Individual CAIs in the All[...]#0087
O"Neil, H.Heavy REE fractionation in chondrites, achondrites[...]#0106
Olsen, M.The Hf-W chronology of FUN CAIs#0006
Othani, E.Petrological and cosmochemical evidence for format[...]#0010
Ott, U.I-Xe chronology of enstatite chondrites#0046
Ott, U.Origin of Refractory Metal Nuggets (RMNs): Did the[...]#0003
Ott, U.Pre-irradiation of chondrules in the Early Solar S[...]#0057
Ott*, U.Noble gases in Antartic Micrometeorites#0030
Pack, A.Differences in D17O between Earth, Moon and enstat[...]#0108
Pack, A.Oxygen isotope exchange between chondrule melt and[...]#0084
Pack, A.Timing of formation of reduction rims in ureilite [...]#0083
Pack, AExperimental investigation of refractory litophile[...]#0085
Pack*, A.Heavy REE fractionation in chondrites, achondrites[...]#0106
Pack*, A.Understanding multiple stable and non-radiogenic i[...]#0107
Palme, H.Lithophile elements in IVB iron meteorites#0096
Palme, H.The dependence of siderophile element partitioning[...]#0032
Palme, H.fO2 and temperature guided alkali and Mn loss from[...]#0062
Paton, C.The Hf-W chronology of FUN CAIs#0006
Patzek*, M.Textural and chemical studies of selected ureiliti[...]#0088
Pavetich, S.Studying the constancy of galactic cosmic rays usi[...]#0027
Pavlov, S.A short cosmic-ray exposure age for an olivine gra[...]#0068
Peters, S.T.M.Assessment of Hf & W isotope compositions in chond[...]#0055
Peters, S.T.M.Development of a High Precision Protocol for Tanta[...]#0058
Peters*, S.T.M.The abudance of W-180 in solar system materials: r[...]#0054
Pfeifer*, M.Development of a High Precision Protocol for Tanta[...]#0058
Pollok, K.The mineralogy and defect microstructure of Hayabu[...]#0047
Posner*, E.S.Chemical evolution of planetesimal cores during th[...]#0018
Postberg, F.Stardust Interstellar Preliminary Examination: Lab[...]#0067
Pucci, A.Development and physical reason of IR spectral fea[...]#0050
Raetz, St.Constraints on solar system formation from young e[...]#0012
Redmer, R.Search for young transit planets in Trumpler 37#0013
Regelous*, M.Trace element analysis of iron meteorites using qu[...]#0007
Rempt, S.Chemical characterization of high pressure shock v[...]#0100
Riebe*, M.Noble gas exposure ages of six non-ureilitic frag-[...]#0070
Riebe*, M.Noble gases in the HF-soluble fraction of the CI c[...]#0065
Roszjar, J.Accessory Ca-phosphates: major hosts for halogens [...]#0071
Roszjar*, J.Hf-W ages and REE systematics of eucrite zircon#0069
Rubie, D. C.Melting during planetary collisions: influence of [...]#0022
Rubie, D. C.Metal-silicate partitioning of the HSEs in S-beari[...]#0076
Rubie, D.C.Chemical evolution of planetesimal cores during th[...]#0018
Rubie, D.C.The dependence of siderophile element partitioning[...]#0032
Rubie*, D.C.Oxygen isotope evolution in the early solar system#0004
Rugel, G.Studying the constancy of galactic cosmic rays usi[...]#0027
Schade, U.A short cosmic-ray exposure age for an olivine gra[...]#0068
Scherer, E.E.Excess 176Hf in differentiated meteorites not caus[...]#0009
Scherer, E.E.Sample dissolution methods for Hf-W analysis#0008
Schertl, H.-P.A new approach combining diffusion chronometry & t[...]#0056
Schiller, M.The Hf-W chronology of FUN CAIs#0006
Schmitt*, M.Preliminary TEM and NanoSIMS analysis of an anhydr[...]#0091
Schmitz*, S.A synchrotron study of presolar graphite spheres.#0082
Schulz, T.The abudance of W-180 in solar system materials: r[...]#0054
Schwander*, D.Origin of Refractory Metal Nuggets (RMNs): Did the[...]#0003
Schwarz, W.Growth of the H chondrite parent body and thermal [...]#0016
Schwarz*, W.H.40Ar-39Ar step heating of Ries impact melts#0039
Schwinger*, S.A new approach combining diffusion chronometry & t[...]#0056
Schönhense, G.Origin of Refractory Metal Nuggets (RMNs): Did the[...]#0003
Semenov*, D.Evolution of the early Solar nebula: Isotopic Frac[...]#0109
Smith*, T.Studying the constancy of galactic cosmic rays usi[...]#0027
Sommer, J. A.Redox controls on tungsten and uranium crystal/sil[...]#0089
Speelmanns , I.M.Redox controls on tungsten and uranium crystal/sil[...]#0089
Spohn, T.Magma ocean in planetesimals – the case of Vesta#0040
Spohn, T.Thermo-chemical evolution of ice-silicate bodies: [...]#0064
Spring, N.A short cosmic-ray exposure age for an olivine gra[...]#0068
Sprung , P.Redox controls on tungsten and uranium crystal/sil[...]#0089
Sprung, P.Excess 176Hf in differentiated meteorites not caus[...]#0009
Sprung*, P.A common initial 176Hf/177Hf of the Earth-Moon sys[...]#0090
Srama, R.Stardust Interstellar Preliminary Examination: Lab[...]#0067
Stammler*, S.M.A large-scale shock model for chondrule formation.#0041
Stampanoni, M.A short cosmic-ray exposure age for an olivine gra[...]#0068
Stephenson*, P.C.Exposure history of Shişr 033, RaS 221, and RaS 2[...]#0051
Storck, J.-C.Petrographic studies and 53Mn-53Cr Chronometry of [...]#0095
Strashnov, I.81Kr – Kr Analyses of Individual CAIs in the All[...]#0087
Tamanai*, A.Development and physical reason of IR spectral fea[...]#0050
Thiemens*, M.M.Ti Isotope Heterogeneities among Chondrules#0094
Thies*, I.Dynamical analysis of transient induced vorticity [...]#0034
Tkalcec*, B.J.A closer look at the schlieren features of harzbur[...]#0077
Trieloff, M.Growth of the H chondrite parent body and thermal [...]#0016
Trieloff, M.I-Xe chronology of enstatite chondrites#0046
Trieloff, M.Noble gases in Antartic Micrometeorites#0030
Trieloff, M.Pre-irradiation of chondrules in the Early Solar S[...]#0057
Trieloff, M.Stardust Interstellar Preliminary Examination: Lab[...]#0067
Trieloff*, M.Petrographic studies and 53Mn-53Cr Chronometry of [...]#0095
Vekemans, B.A synchrotron study of presolar graphite spheres.#0082
Vincze, L.A synchrotron study of presolar graphite spheres.#0082
Vogel*, A.K.The dependence of siderophile element partitioning[...]#0032
Vollmer, Temperature and timescales of alteration in chondr[...]#0101
Vollmer, C.Aqueously altered minerals in CM2 chondrites Marib[...]#0052
Vollmer, C.Isotopic and Mineralogical Characterization of Pre[...]#0060
Vollmer, C.Meteoritic calcite oxygen isotope systematics – [...]#0033
Ward*, D.Accessory Ca-phosphates: major hosts for halogens [...]#0071
Weber, I.A short cosmic-ray exposure age for an olivine gra[...]#0068
Weber, I.Achondrite NWA 7325: A spectral and cosmochemical [...]#0037
Wetzel, S.Development and physical reason of IR spectral fea[...]#0050
Weyer, S.In Situ δ56Fe Analysis of Chondrite Components#0079
Weyrauch*, M.Major and minor element systematics in enstatite c[...]#0081
Whitehouse, M.J.Accessory Ca-phosphates: major hosts for halogens [...]#0071
Whitehouse, M.J.Hf-W ages and REE systematics of eucrite zircon#0069
Wielandt, D.The Hf-W chronology of FUN CAIs#0006
Wieler, R.An exotic Ne component in ordinary chondritic chro[...]#0053
Wieler, R.Noble gas exposure ages of six non-ureilitic frag-[...]#0070
Wieler, R.Noble gases in the HF-soluble fraction of the CI c[...]#0065
Wieler, R.Nucleosynthetic W isotope anomalies and Hf-W chron[...]#0023
Wombacher, F.Experimental investigation of Cd and Ga isotope fr[...]#0019
Wombacher, F.LA-ICP-MS method for the determination of trace el[...]#0098
Wombacher, F.Selenium and Tellurium in Chondrites#0099
Wombacher, FAssessment of Hf & W isotope compositions in chond[...]#0055
Wombacher*, F.E.Determination of mercury isotope compositions in c[...]#0110
Zeidler, S.Measurements of high-temperature optical constants[...]#0112
Zipfel, J.In Situ δ56Fe Analysis of Chondrite Components#0079
Zipfel, J.Isotopic and Mineralogical Characterization of Pre[...]#0060
Zipfel*, J.Lithophile elements in IVB iron meteorites#0096
de Vries*, J.Melting during planetary collisions: influence of [...]#0022
van Aken, P.A.The mineralogy and defect microstructure of Hayabu[...]#0047