Author index (Paneth Kolloquium, 2017)

Author Title PDF
*corresponding author
Alexander, C.M.O'D.Noble gases in CM chondrites: Effect of aqueous al[...]#0060
Alfing*, J.Modal abundances of accessory phases within clasts[...]#0078
Archer*, G.J.W Isotopic Compositions of Barberton and Pilbara K[...]#0077
Barosch*, J.Mineralogical chondrule zonation in ordinary chond[...]#0024
Bartoschewitz, R.U/Pb dating of zircon/baddeleyite of lunar meteori[...]#0008
Baumgartner, L. P.New 26Al-26Mg SIMS isochron ages of single chondru[...]#0061
Beck, A.Experimental study of the nebular lightning theory[...]#0034
Beck, A.A.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Beck, A.A.Experimental Setup for Studying Chondrule Formatio[...]#0082
Becker, H.Influence of the Imbrium impact event on textures [...]#0017
Becker, H.Origin of non-chondritic highly siderophile elemen[...]#0069
Becker, H.Sulfur stable isotopic composition of material der[...]#0041
Berndt, J.Preliminary results on stable Ru isotope fractiona[...]#0095
Berndt, J.Siderophile Element Partitioning between Sulfide- [...]#0100
Berndt, J.The partitioning of halogens between mantle minera[...]#0018
Bischoff, A.50Ti isotope data from CAIs and Na-Al-rich chondru[...]#0025
Bischoff, A.Brecciation of ordinary chondrites – study of 22[...]#0027
Bischoff, A.Bulk anaylsis of extraterrestrial samples using IN[...]#0096
Bischoff, A.CI-like clasts in polymict ureilites and HEDs: Ide[...]#0028
Bischoff, A.Ca,Al-rich inclusions within the unique CM-chondri[...]#0031
Bischoff, A.Cloppenburg (H4-5) - first results of a new find.#0075
Bischoff, A.Mineralogical characterization of three new lunar [...]#0081
Bischoff, A.Modal abundances of accessory phases within clasts[...]#0078
Bischoff, A.Raman carbon thermometry constraints of low temper[...]#0043
Bizzarro, High Iron Wadsleyite in Shocked Melt Droplets of C[...]#0073
Bouvier, A.-S.New 26Al-26Mg SIMS isochron ages of single chondru[...]#0061
Braukmüller, N.Contrasting Hg abundances in meteorites from Antar[...]#0068
Braukmüller*, N.A CI component in carbonaceous chondrites#0065
Brenker, F.E.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Brenker, F.E.Experimental Setup for Studying Chondrule Formatio[...]#0082
Brenker, F.E.Experimental study of the nebular lightning theory[...]#0034
Brenker, F.E.High Iron Wadsleyite in Shocked Melt Droplets of C[...]#0073
Brennecka, G.A.50Ti isotope data from CAIs and Na-Al-rich chondru[...]#0025
Breuer, D.The fate of the Ilmenite-bearing cumulates in the [...]#0045
Breuer, D.Where do crystals form in a lunar magma ocean?#0083
Budde, G.The origin of the dichotomy between carbonaceous a[...]#0080
Burkhardt, C.50Ti isotope data from CAIs and Na-Al-rich chondru[...]#0025
Burkhardt, C.The origin of the dichotomy between carbonaceous a[...]#0080
Busemann, H.Analysing a STARDUST analogue sample mixture by cl[...]#0062
Busemann, H.Noble gases in CM chondrites: Effect of aqueous al[...]#0060
Christ, O.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Christ, O.Experimental Setup for Studying Chondrule Formatio[...]#0082
Christ, O.Experimental study of the nebular lightning theory[...]#0034
Degering, D.Cloppenburg (H4-5) - first results of a new find.#0075
Dude , S.Layer formation in the Early Earth#0036
Ebert, S.Ca,Al-rich inclusions within the unique CM-chondri[...]#0031
Ebert, S.Cloppenburg (H4-5) - first results of a new find.#0075
Ebert*, S.50Ti isotope data from CAIs and Na-Al-rich chondru[...]#0025
El Goresy, A.Meteoritic matter from the Ries and Steinheim impa[...]#0070
Elfers, B.-M.Homogenous Fe isotope composition of chondrite lea[...]#0074
Escoube, R.Contrasting Hg abundances in meteorites from Antar[...]#0068
Fassett, C. I.Ancient bombardment of the inner Solar System - re[...]#0033
Fischer-Gödde, M.Ru stable isotopic constrains on late accretion#0022
Fischer-Gödde, M.Tellurium stable isotope measurements by double sp[...]#0023
Fischer-Gödde, M.The origin of the dichotomy between carbonaceous a[...]#0080
Fischer*, M.B.Reconstructing the oxygen isotope composition of t[...]#0076
Flemetakis*, S.The partitioning of halogens between mantle minera[...]#0018
Folco, L.Reconstructing the oxygen isotope composition of t[...]#0076
Fonseca, R.O.C.Revising the Lunar W Budget#0092
Fonseca*, R. O. C.Evidence for an Earth-like Mo/W of the bulk-silica[...]#0072
Funaki, M.Almahata Sitta MagSus Database - the Ureilites#0039
Funaki, M.Compilation of the MagSus Database of Almahata Sit[...]#0038
Gabelica, Z. G.Novel metalorganic compounds revealed in meteorite[...]#0012
Gabelica, Z.G.Ultrahigh-resolving analytics in meteoritic solubl[...]#0013
Gail*, H.-P.The spatial distribution of carbon dust in the ear[...]#0040
Genzel, P.-T.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Genzel, P.-T.Experimental Setup for Studying Chondrule Formatio[...]#0082
Genzel, P.-T.Experimental study of the nebular lightning theory[...]#0034
Gerber, S.50Ti isotope data from CAIs and Na-Al-rich chondru[...]#0025
Gericke*, T.Where do crystals form in a lunar magma ocean?#0083
Gleissner*, P.Origin of non-chondritic highly siderophile elemen[...]#0069
Gnos, E.Tracing the origin of light rare earth element enr[...]#0084
Gonsior, M. G.Novel metalorganic compounds revealed in meteorite[...]#0012
Gougeon, R. G.Novel metalorganic compounds revealed in meteorite[...]#0012
Greif*, J.Laboratory Measurements of the Far-Infrared to Mil[...]#0101
Grützner*, T.Preliminary results on stable Ru isotope fractiona[...]#0095
Guillong, M.Tracing the origin of light rare earth element enr[...]#0084
Gurlit, S.Bulk anaylsis of extraterrestrial samples using IN[...]#0096
Haack, H. H.Novel metalorganic compounds revealed in meteorite[...]#0012
Haber*, T.Separating ≤ 20 μm sized mineral fractions for [...]#0079
Hackler, S.Fractionation of Siderophile Volatile Elements dur[...]#0030
Hackler*, S.Siderophile Element Partitioning between Sulfide- [...]#0100
Hansen *, U.Layer formation in the Early Earth#0036
Hansen, U.Dynamics of Magma Ocean Crystallization#0086
Hansen, U.On the effects of planetary rotation on early Eart[...]#0066
Harir, M. H.Novel metalorganic compounds revealed in meteorite[...]#0012
Harir, M.H.Ultrahigh-resolving analytics in meteoritic solubl[...]#0013
Harwell*, M. L. Modeling ejecta interactions using KFIX, a 2-fluid[...]#0094
Heinlein, D.Cloppenburg (H4-5) - first results of a new find.#0075
Hellmann*, J.L.Tellurium stable isotope measurements by double sp[...]#0023
Hertkorn, N. H.Novel metalorganic compounds revealed in meteorite[...]#0012
Hertkorn, N.H.Ultrahigh-resolving analytics in meteoritic solubl[...]#0013
Hezel, D. C.Homogenous Fe isotope composition of chondrite lea[...]#0074
Hezel, D.C.Mineralogical chondrule zonation in ordinary chond[...]#0024
Hezel, D.H.A CI component in carbonaceous chondrites#0065
Hiesinger, H.Ancient bombardment of the inner Solar System - re[...]#0033
Hiesinger, H.The Crater-Size Frequency Distribution of the Apol[...]#0006
Hinman, N. H.Novel metalorganic compounds revealed in meteorite[...]#0012
Hochleitner, R.Almahata Sitta MagSus Database - the Ureilites#0039
Hochleitner, R.Compilation of the MagSus Database of Almahata Sit[...]#0038
Hochleitner, R.Stubenberg Meteorite Fall 2016: Raman Spectroscopy[...]#0037
Hoffmann*, V.H.Almahata Sitta MagSus Database - the Ureilites#0039
Hoffmann*, V.H.Compilation of the MagSus Database of Almahata Sit[...]#0038
Hoffmann*, V.H.Stubenberg Meteorite Fall 2016: Raman Spectroscopy[...]#0037
Hofmann, B.A.Current Ti-44 activities and other radionuclide re[...]#0085
Hofmann, B.A.Tracing the origin of light rare earth element enr[...]#0084
Hofmann*, B.A.The Twannberg IIG iron strewn field, Switzerland: [...]#0035
Holm-Alwmark, S.A tale of clusters – asteroid impacts on Earth h[...]#0067
Hopp, J.Solar Neon within Earth – the core as a potentia[...]#0046
Hopp, J.U/Pb dating of zircon/baddeleyite of lunar meteori[...]#0008
Hopp*, J.In situ ion probe measurement of sulfur isotopic c[...]#0002
Hopp*, T.Ru stable isotopic constrains on late accretion#0022
Hoppe, P.A SEM and NanoSIMS investigation of organic aggreg[...]#0009
Hoppe, P.CI-like clasts in polymict ureilites and HEDs: Ide[...]#0028
Hoppe, P.Minor element zoning in presolar SiC of supernova [...]#0058
Iqbal*, W.The Crater-Size Frequency Distribution of the Apol[...]#0006
Jacquet*, E.Chondrule heritage and thermal histories: The tale[...]#0011
Jenniskens, P. J.Novel metalorganic compounds revealed in meteorite[...]#0012
John, T.CI-like clasts in polymict ureilites and HEDs: Ide[...]#0028
John, T.Raman carbon thermometry constraints of low temper[...]#0043
Jull, T.Cloppenburg (H4-5) - first results of a new find.#0075
Kaliwoda, M.Stubenberg Meteorite Fall 2016: Raman Spectroscopy[...]#0037
Kanawati, B. K.Novel metalorganic compounds revealed in meteorite[...]#0012
Kanawati, B.K.Ultrahigh-resolving analytics in meteoritic solubl[...]#0013
Kimpel, S.Ca,Al-rich inclusions within the unique CM-chondri[...]#0031
Kleine, T.50Ti isotope data from CAIs and Na-Al-rich chondru[...]#0025
Kleine, T.Ru stable isotopic constrains on late accretion#0022
Kleine, T.Tellurium stable isotope measurements by double sp[...]#0023
Kleine, T.The origin of the dichotomy between carbonaceous a[...]#0080
Kleine, T.W Isotopic Compositions of Barberton and Pilbara K[...]#0077
Klemme, S.An experimental study on alteration in Eucrites an[...]#0099
Klemme, S.Fractionation of Siderophile Volatile Elements dur[...]#0030
Klemme, S.Preliminary results on stable Ru isotope fractiona[...]#0095
Klemme, S.Siderophile Element Partitioning between Sulfide- [...]#0100
Klemme, S.The partitioning of halogens between mantle minera[...]#0018
Kneissl, T.Ancient bombardment of the inner Solar System - re[...]#0033
Kneissl, T.Crater counting on densely cratered surfaces: A ne[...]#0032
Koch, T.E.Experimental Setup for Studying Chondrule Formatio[...]#0082
Koch, T.E.Experimental study of the nebular lightning theory[...]#0034
Koch*, T.E.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Koch*, T.E.High Iron Wadsleyite in Shocked Melt Droplets of C[...]#0073
Kodolányi*, J.Minor element zoning in presolar SiC of supernova [...]#0058
Kohout, T.Shock-darkening in ordinary chondrites: shock wave[...]#0007
Kontul, I.Cloppenburg (H4-5) - first results of a new find.#0075
Krot, A.N.High Iron Wadsleyite in Shocked Melt Droplets of C[...]#0073
Kruijer, T.S.The origin of the dichotomy between carbonaceous a[...]#0080
Krämer*, A.-K.Mineralogical characterization of three new lunar [...]#0081
Leister*, N.Bulk anaylsis of extraterrestrial samples using IN[...]#0096
Leitner*, J.A SEM and NanoSIMS investigation of organic aggreg[...]#0009
Leitzke, F. P.Evidence for an Earth-like Mo/W of the bulk-silica[...]#0072
Leitzke, F.P.Revising the Lunar W Budget#0092
Lentfort*, S.Ca,Al-rich inclusions within the unique CM-chondri[...]#0031
Leya, I.The Twannberg IIG iron strewn field, Switzerland: [...]#0035
Li, X.Bulk anaylsis of extraterrestrial samples using IN[...]#0096
Li, X.Cloppenburg (H4-5) - first results of a new find.#0075
Lierse von Gostomski, C.Bulk anaylsis of extraterrestrial samples using IN[...]#0096
Lilly, K.High Iron Wadsleyite in Shocked Melt Droplets of C[...]#0073
Lindner, M.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Lindner, M.Experimental Setup for Studying Chondrule Formatio[...]#0082
Lindner, M.Experimental Setup for Studying Chondrule Formatio[...]#0082
Lindner, M.Experimental study of the nebular lightning theory[...]#0034
Liu*, T.2D Models for the evolving distribution of impact [...]#0014
Loroch, D.Siderophile Element Partitioning between Sulfide- [...]#0100
Loroch*, D.Fractionation of Siderophile Volatile Elements dur[...]#0030
Lucio, M. L.Novel metalorganic compounds revealed in meteorite[...]#0012
Lucio, M.L.Ultrahigh-resolving analytics in meteoritic solubl[...]#0013
Ludwig, T.In situ ion probe measurement of sulfur isotopic c[...]#0002
Maas*, C.On the effects of planetary rotation on early Eart[...]#0066
Maden, C.Analysing a STARDUST analogue sample mixture by cl[...]#0062
Maden, C.Noble gases in CM chondrites: Effect of aqueous al[...]#0060
Manske*, L.Impact-induced melting in giant collision events.#0042
Margonis*, A.Fireball monitoring with digital video cameras#0015
Marrocchi, Y.Chondrule heritage and thermal histories: The tale[...]#0011
Martellato*, E.Insight into complex crater formation#0021
Marty*, B.Constraints on the delivery of volatile elements t[...]#0044
Matschey, Y.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Matschey, Y.Experimental Setup for Studying Chondrule Formatio[...]#0082
Matschey*, Y.Experimental study of the nebular lightning theory[...]#0034
Maurice, M.The fate of the Ilmenite-bearing cumulates in the [...]#0045
Mederos Leber, D.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Mederos Leber, D.Experimental Setup for Studying Chondrule Formatio[...]#0082
Mederos Leber, D.Experimental study of the nebular lightning theory[...]#0034
Meier*, M. M. M.A tale of clusters – asteroid impacts on Earth h[...]#0067
Menneken, M.Raman carbon thermometry constraints of low temper[...]#0043
Merchel, S.Bulk anaylsis of extraterrestrial samples using IN[...]#0096
Merchel, S.Cloppenburg (H4-5) - first results of a new find.#0075
Merges, D.Experimental Setup for Studying Chondrule Formatio[...]#0082
Metzler*, K.From 2D to 3D chondrule size data: some ground tru[...]#0020
Mezger, K.New 26Al-26Mg SIMS isochron ages of single chondru[...]#0061
Mezger, K.Stable isotope analysis of Sn: A novel non-traditi[...]#0093
Michael, G.Ancient bombardment of the inner Solar System - re[...]#0033
Michael, G.Crater counting on densely cratered surfaces: A ne[...]#0032
Michely, L.Evidence for an Earth-like Mo/W of the bulk-silica[...]#0072
Moreau*, J.Shock-darkening in ordinary chondrites: shock wave[...]#0007
Moritz, F. M.Novel metalorganic compounds revealed in meteorite[...]#0012
Muszynski, A.Bulk anaylsis of extraterrestrial samples using IN[...]#0096
Mutschke, H.Laboratory Measurements of the Far-Infrared to Mil[...]#0101
Münker , CRevising the Lunar W Budget#0092
Münker, C.A CI component in carbonaceous chondrites#0065
Münker, C.Evidence for an Earth-like Mo/W of the bulk-silica[...]#0072
Münker, C.Homogenous Fe isotope composition of chondrite lea[...]#0074
Nikolaou, A.Where do crystals form in a lunar magma ocean?#0083
Nowok, R.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Nowok, R.Experimental Setup for Studying Chondrule Formatio[...]#0082
Nowok, R.Experimental study of the nebular lightning theory[...]#0034
Oberst, J.Cloppenburg (H4-5) - first results of a new find.#0075
Oberst, J.Does the gravity signature of lunar basins correla[...]#0016
Oberst, J.Fireball monitoring with digital video cameras#0015
Oeser-Rabe, M.Reconstructing the oxygen isotope composition of t[...]#0076
Orgel, C.Crater counting on densely cratered surfaces: A ne[...]#0032
Orgel*, C.Ancient bombardment of the inner Solar System - re[...]#0033
Ortenzi*, G.Earth´s Magma Ocean volcanic outgassing#0087
Ott, U.Cloppenburg (H4-5) - first results of a new find.#0075
Ott, U.Solar Neon within Earth – the core as a potentia[...]#0046
Pack, A.Cloppenburg (H4-5) - first results of a new find.#0075
Pack, A.Reconstructing the oxygen isotope composition of t[...]#0076
Pape, J.Tracing the origin of light rare earth element enr[...]#0084
Pape*, J.New 26Al-26Mg SIMS isochron ages of single chondru[...]#0061
Pathak*, D.Stable isotope analysis of Sn: A novel non-traditi[...]#0093
Patzek, M.Modal abundances of accessory phases within clasts[...]#0078
Patzek, M.Raman carbon thermometry constraints of low temper[...]#0043
Patzek*, M.CI-like clasts in polymict ureilites and HEDs: Ide[...]#0028
Pernicka, E.Meteoritic matter from the Ries and Steinheim impa[...]#0070
Peters, S.Cloppenburg (H4-5) - first results of a new find.#0075
Peters, S.T.M.Reconstructing the oxygen isotope composition of t[...]#0076
Pettke, T.The Twannberg IIG iron strewn field, Switzerland: [...]#0035
Petö, M.K.Cloppenburg (H4-5) - first results of a new find.#0075
Prior, D.J.High Iron Wadsleyite in Shocked Melt Droplets of C[...]#0073
Puchtel, I.S.W Isotopic Compositions of Barberton and Pilbara K[...]#0077
Quirico, E. Q.Novel metalorganic compounds revealed in meteorite[...]#0012
Quirico, E.Q.Ultrahigh-resolving analytics in meteoritic solubl[...]#0013
Rai, V.K.Mg isotope homogeneity in planetary materials#0019
Raselli, R.The Twannberg IIG iron strewn field, Switzerland: [...]#0035
Rempt, R.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Rempt, S.Experimental Setup for Studying Chondrule Formatio[...]#0082
Rempt, S.Experimental study of the nebular lightning theory[...]#0034
Render, J.50Ti isotope data from CAIs and Na-Al-rich chondru[...]#0025
Riedel, C.Ancient bombardment of the inner Solar System - re[...]#0033
Riedel*, C.Crater counting on densely cratered surfaces: A ne[...]#0032
Rohrbach, A.Fractionation of Siderophile Volatile Elements dur[...]#0030
Rohrbach, A.Preliminary results on stable Ru isotope fractiona[...]#0095
Rohrbach, A.Siderophile Element Partitioning between Sulfide- [...]#0100
Rohrbach, A.The partitioning of halogens between mantle minera[...]#0018
Rombeck*, S.M.An experimental study on alteration in Eucrites an[...]#0099
Roszjar, J.An experimental study on alteration in Eucrites an[...]#0099
Rosén*, Å.V.Current Ti-44 activities and other radionuclide re[...]#0085
Rosén*, Å.V.Tracing the origin of light rare earth element enr[...]#0084
Rougeon, R.G.Ultrahigh-resolving analytics in meteoritic solubl[...]#0013
Ruf*, A. R.Novel metalorganic compounds revealed in meteorite[...]#0012
Ruf*, A.R.Ultrahigh-resolving analytics in meteoritic solubl[...]#0013
Rugel, G.Cloppenburg (H4-5) - first results of a new find.#0075
Sarafian, A.An experimental study on alteration in Eucrites an[...]#0099
Schaper, Y.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Schaper, Y.Experimental Setup for Studying Chondrule Formatio[...]#0082
Schaper, Y.Experimental study of the nebular lightning theory[...]#0034
Scherer, E.E.Separating ≤ 20 μm sized mineral fractions for [...]#0079
Schleiting*, M.Brecciation of ordinary chondrites – study of 22[...]#0027
Schmid*, F.Sulfur stable isotopic composition of material der[...]#0041
Schmidt*, G.Meteoritic matter from the Ries and Steinheim impa[...]#0070
Schmitt-Kopplin, P. S.-K.Novel metalorganic compounds revealed in meteorite[...]#0012
Schmitt-Kopplin, P.S.-K.Ultrahigh-resolving analytics in meteoritic solubl[...]#0013
Schmuck, F.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Schmuck, F.Experimental Setup for Studying Chondrule Formatio[...]#0082
Schmuck, F.Experimental study of the nebular lightning theory[...]#0034
Schumann, M.Current Ti-44 activities and other radionuclide re[...]#0085
Schwarz, W.Solar Neon within Earth – the core as a potentia[...]#0046
Schwarz*, W.H.U/Pb dating of zircon/baddeleyite of lunar meteori[...]#0008
Schwinger, S.Where do crystals form in a lunar magma ocean?#0083
Schwinger*, S.The fate of the Ilmenite-bearing cumulates in the [...]#0045
Shilobreeva, S. S.Novel metalorganic compounds revealed in meteorite[...]#0012
Sikdar*, J.Mg isotope homogeneity in planetary materials#0019
Sohl, F.Earth´s Magma Ocean volcanic outgassing#0087
Spahr, D.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Spahr, D.Experimental study of the nebular lightning theory[...]#0034
Spahr*, D.Experimental Setup for Studying Chondrule Formatio[...]#0082
Sprung, P.Evidence for an Earth-like Mo/W of the bulk-silica[...]#0072
Sprung, PRevising the Lunar W Budget#0092
Stein , C.Layer formation in the Early Earth#0036
Storz*, J.Cloppenburg (H4-5) - first results of a new find.#0075
Stracke, A.W Isotopic Compositions of Barberton and Pilbara K[...]#0077
Szidat, S.The Twannberg IIG iron strewn field, Switzerland: [...]#0035
Szyszko, M.Bulk anaylsis of extraterrestrial samples using IN[...]#0096
Thiemens*, M.H.The Origin of Meteoritic Oxygen Isotopes#0089
Thiemens*, M.M.Revising the Lunar W Budget#0092
Tosi, N.The fate of the Ilmenite-bearing cumulates in the [...]#0045
Trieloff, M.In situ ion probe measurement of sulfur isotopic c[...]#0002
Trieloff, M.Solar Neon within Earth – the core as a potentia[...]#0046
Trieloff, M.The spatial distribution of carbon dust in the ear[...]#0040
Trieloff, M.U/Pb dating of zircon/baddeleyite of lunar meteori[...]#0008
Vanderliek*, D.M.Influence of the Imbrium impact event on textures [...]#0017
Visser, R.CI-like clasts in polymict ureilites and HEDs: Ide[...]#0028
Visser*, R.Raman carbon thermometry constraints of low temper[...]#0043
Vogt*, M.Solar Neon within Earth – the core as a potentia[...]#0046
Vollmer, C.A SEM and NanoSIMS investigation of organic aggreg[...]#0009
Vollmer, C.An experimental study on alteration in Eucrites an[...]#0099
Vollmer, C.Minor element zoning in presolar SiC of supernova [...]#0058
Vollstaedt, H.Stable isotope analysis of Sn: A novel non-traditi[...]#0093
Wahl, D.Fireball monitoring with digital video cameras#0015
Wahl*, D.Does the gravity signature of lunar basins correla[...]#0016
Walker, R.J.W Isotopic Compositions of Barberton and Pilbara K[...]#0077
Weimer*, D.Noble gases in CM chondrites: Effect of aqueous al[...]#0060
Weyer, S.Origin of metal in CR-clan chondrites – constrai[...]#0026
Weyer, S.Reconstructing the oxygen isotope composition of t[...]#0076
Weyrauch*, M.Origin of metal in CR-clan chondrites – constrai[...]#0026
Wiechert, U.Sulfur stable isotopic composition of material der[...]#0041
Will*, P.Analysing a STARDUST analogue sample mixture by cl[...]#0062
Wimmer, K.Almahata Sitta MagSus Database - the Ureilites#0039
Wimmer, K.Compilation of the MagSus Database of Almahata Sit[...]#0038
Wimmer, K.Stubenberg Meteorite Fall 2016: Raman Spectroscopy[...]#0037
Winkler, B.Experimental Chondrule Formation at the ISS (EXCIS[...]#0029
Winkler, B.Experimental Setup for Studying Chondrule Formatio[...]#0082
Winkler, B.Experimental study of the nebular lightning theory[...]#0034
Wombacher, F.A CI component in carbonaceous chondrites#0065
Wombacher, F.Homogenous Fe isotope composition of chondrite lea[...]#0074
Wombacher*, F.Contrasting Hg abundances in meteorites from Antar[...]#0068
Worsham*, E.A.The origin of the dichotomy between carbonaceous a[...]#0080
Wünnemann, K.Impact-induced melting in giant collision events.#0042
Wünnemann, K.Insight into complex crater formation#0021
Wünnemann, K.Shock-darkening in ordinary chondrites: shock wave[...]#0007
Wіeѕehöfеr*, T.Dynamics of Magma Ocean Crystallization#0086
Yin, Q.-Z. Y.Novel metalorganic compounds revealed in meteorite[...]#0012
Yu, S.The fate of the Ilmenite-bearing cumulates in the [...]#0045
Zipfel, J.Origin of metal in CR-clan chondrites – constrai[...]#0026
Zippmann*, V. E.Homogenous Fe isotope composition of chondrite lea[...]#0074
van der Bogert, C. H.Ancient bombardment of the inner Solar System - re[...]#0033
van der Bogert, C.HThe Crater-Size Frequency Distribution of the Apol[...]#0006