Author index (Paneth Kolloquium, 2019)

Author Title PDF
*corresponding author
Alfing*, J.Modal abundances of coarse-grained components with[...]#0044
Anand*, A.53Cr/52Cr chromium model ages of ordinary chondrit[...]#0037
Balduin, A.Heterogeneities in Earth’s mantle over time due [...]#0028
Bechtold*, A.Northwest Africa 11962: A new lunar meteorite from[...]#0036
Becker, H.Assessing different types of C1 material by H, O, [...]#0045
Becker, H.Lunar megaregolith mixing by impacts: spatial disp[...]#0014
Becker, H.Siderophile elements in lunar granulitic impactite[...]#0003
Becker, H.Two-Stage Evolution of Lunar Granulite 79215 as Re[...]#0032
Berndt, J.Iron-60 in primitive meteorites: New in situ data#0042
Berndt, J.B.Chalcophile Element Accretion from the Late Venee[...]#0031
Bischoff , A.A xenolith in the Murchison CM chondrite formed by[...]#0055
Bischoff, A.A >500 km-sized Differentiated Planetesimal of Ens[...]#0061
Bischoff, A.Assessing different types of C1 material by H, O, [...]#0045
Bischoff, A.Modal abundances of coarse-grained components with[...]#0044
Bischoff, AHydrothermal alteration in the outer solar system [...]#0029
Brandstätter, F.Northwest Africa 11962: A new lunar meteorite from[...]#0036
Braukmüller*, N.Volatile element depletion in planetary materials#0063
Brennecka, G.A.Complex mixing of nebular materials inferred from [...]#0018
Breuer, D.The FeO content of the lunar mantle – insights f[...]#0064
Budde, G.Genetic heritage and chronology of ungrouped iron [...]#0012
Budde, G.W and Mo isotopic constraints on the age and origi[...]#0021
Burkhardt, C.Complex mixing of nebular materials inferred from [...]#0018
Burkhardt, C.Genetic heritage and chronology of ungrouped iron [...]#0012
Burkhardt, C.Tellurium stable isotopic evidence for heterogeneo[...]#0035
Busemann, H.Closed system step etching (CSSE) of MIL 090657 re[...]#0062
Busemann*, H.Noble Gases in five NWA angrites – First detecti[...]#0071
Deligny*, COrigin and timing of nitrogen delivery to the angr[...]#0025
Ebert , S.A xenolith in the Murchison CM chondrite formed by[...]#0055
Falke, M.Characterizing impact generated platinum-group ele[...]#0068
Fassett, C.I.Re-examination of the population, stratigraphy, an[...]#0038
Feige, J.Bulk anaylsis of meteorites and micro-meteorite ca[...]#0056
Fischer-Gödde, M.Characterizing impact generated platinum-group ele[...]#0068
Fischer*, M.B.Triple oxygen isotope comparison between terrestri[...]#0047
Gail*, H.-P.Metallographic cooling rates of ordinary chondrite[...]#0034
German*, B.R.Are there still errors in the interpretation of da[...]#0002
German*, B.R.Cr isotope systematics and the Bosumtwi crater#0066
German*, B.R.The Martian blueberries and Earth tektites#0067
German*, B.R.The activation of the Cosgrove hotspot in Tasmania[...]#0001
German*, B.R.The genesis of tektites#0069
Gleißner*, P.Siderophile elements in lunar granulitic impactite[...]#0003
Golabek, G.J.Two-stage formation of angular pallasites revealed[...]#0049
Greshake, A.Characterizing impact generated platinum-group ele[...]#0068
Guillong, M.G.Chondrule formation and subsequent reprocessing by[...]#0070
Gärtner, A.Bulk anaylsis of meteorites and micro-meteorite ca[...]#0056
Gärtner*, M.The First Microsecond of a Hypervelocity Impact#0065
Güldemeister, N.Impact-Induced Melting by Giant Impact Events#0016
Güldemeister*, N.G.Thermal state of the Earth after the Moon-forming [...]#0011
Haber*, T.Further evidence for a ~4.2 Ga age component in Ap[...]#0041
Hackler, S.SVEs during Earth’s core formation – Modeling [...]#0039
Hackler*, S.H.Chalcophile Element Accretion from the Late Venee[...]#0031
Hallo*, A.P.#0075
Hallo*, A.P.#0076
Hallo*, A.P.#0077
Hansen, U.A Smoothed Particle Hydrodynamics Method for Model[...]#0015
Hansen, U.On the fate of impact-delivered metal in a rotatin[...]#0010
Harries*, DA >500 km-sized Differentiated Planetesimal of Ens[...]#0061
Hartogh, P.Triple oxygen isotope comparison between terrestri[...]#0047
Hasenstab, ESecular evolution of W isotope anomalies in the Pi[...]#0072
Hellmann*, J.L.Tellurium stable isotopic evidence for heterogeneo[...]#0035
Hiesinger, H.Geology and crater-size frequency distributions of[...]#0004
Hiesinger, H.Re-examination of the population, stratigraphy, an[...]#0038
Hiesinger, H.The contribution of new impacts to the degradation[...]#0008
Hochleitner, R.First results on the new angrite NWA 12774#0050
Hochleitner, R.More on the Saricicek meteorite (howardite): shock[...]#0051
Hoffmann, V.H.First results on the new angrite NWA 12774#0050
Hoffmann*, V.H.More on the Saricicek meteorite (howardite): shock[...]#0051
Hofmann, B.53Cr/52Cr chromium model ages of ordinary chondrit[...]#0037
Hopp, J.Noble gases and radionuclides in Washington County[...]#0017
Hopp, T.Tellurium stable isotopic evidence for heterogeneo[...]#0035
Hoppe, P.Iron-60 in primitive meteorites: New in situ data#0042
Hoppe, P.The occurrence of silicon nitride in chondritic me[...]#0023
Iqbal*, W.Geology and crater-size frequency distributions of[...]#0004
Irving, A.J.Noble Gases in five NWA angrites – First detecti[...]#0071
Jacquet, EOrigin and formation conditions of chondrules#0013
Jacquet*, E.Beryllium-10 and CAI origin#0005
Jansen, M.Secular evolution of W isotope anomalies in the Pi[...]#0072
Jiang, Y.Potassium systematics in tektites#0024
John, T.Assessing different types of C1 material by H, O, [...]#0045
John, THydrothermal alteration in the outer solar system [...]#0029
Jonášová, Š.Disentangling impactor type and post-collision pro[...]#0020
Jung, D.New Shatter Cones from the Ries Crater#0058
Kadlag, Y.Assessing different types of C1 material by H, O, [...]#0045
Kaliwoda, M.First results on the new angrite NWA 12774#0050
Kaliwoda, M.More on the Saricicek meteorite (howardite): shock[...]#0051
Keller, L.P.Chemical and petrographical charakterization of am[...]#0027
Kepaptsoglou, D.Functional chemistry and isotopic composition of o[...]#0033
Kerraouch*, I.A xenolith in the Murchison CM chondrite formed by[...]#0055
King, A. J.Functional chemistry and isotopic composition of o[...]#0033
King, A.J.Closed system step etching (CSSE) of MIL 090657 re[...]#0062
Kirmse, H.Characterizing impact generated platinum-group ele[...]#0068
Kleine, T. Characterizing impactors on the Moon using Ru isot[...]#0059
Kleine, T.Complex mixing of nebular materials inferred from [...]#0018
Kleine, T.Genetic heritage and chronology of ungrouped iron [...]#0012
Kleine, T.Tellurium stable isotopic evidence for heterogeneo[...]#0035
Kleine, T.W and Mo isotopic constraints on the age and origi[...]#0021
Klemme, S.SVEs during Earth’s core formation – Modeling [...]#0039
Klemme, S.K.Chalcophile Element Accretion from the Late Venee[...]#0031
Kodolányi*, J.Iron-60 in primitive meteorites: New in situ data#0042
Koeberl, C.Northwest Africa 11962: A new lunar meteorite from[...]#0036
Koll, D.Noble gases and radionuclides in Washington County[...]#0017
Krietsch*, D.Closed system step etching (CSSE) of MIL 090657 re[...]#0062
Kruijer, T.S.Genetic heritage and chronology of ungrouped iron [...]#0012
Kurtz*, T.K.Searching and finding meteorites in Germany or sim[...]#0052
Kurzweil, F.Secular evolution of W isotope anomalies in the Pi[...]#0072
Křížová, Š.Compositions of splashform- and Muong Nong-type Au[...]#0060
Lachner, J.Noble gases and radionuclides in Washington County[...]#0017
Leitner, J.Functional chemistry and isotopic composition of o[...]#0033
Leitner*, J.The occurrence of silicon nitride in chondritic me[...]#0023
Li*, X.Bulk anaylsis of meteorites and micro-meteorite ca[...]#0056
Lierse v. G., Ch.Bulk anaylsis of meteorites and micro-meteorite ca[...]#0056
Liu*, T.Lunar megaregolith mixing by impacts: spatial disp[...]#0014
Lompa*, T.Lunar basin formation - a numerical modeling study[...]#0040
Loroch, D.L.Chalcophile Element Accretion from the Late Venee[...]#0031
Loroch*, D.SVEs during Earth’s core formation – Modeling [...]#0039
Maas*, C.On the fate of impact-delivered metal in a rotatin[...]#0010
Maden, C.Closed system step etching (CSSE) of MIL 090657 re[...]#0062
Maden, C.Noble Gases in five NWA angrites – First detecti[...]#0071
Magna*, T.A reassessment of the iron isotope composition of [...]#0019
Magna*, T.Disentangling impactor type and post-collision pro[...]#0020
Magna*, T.Potassium systematics in tektites#0024
Manske, L.M.Thermal state of the Earth after the Moon-forming [...]#0011
Manske*, L.Impact-Induced Melting by Giant Impact Events#0016
Marien, C.S.Secular evolution of W isotope anomalies in the Pi[...]#0072
Marrocchi, Y.Complex mixing of nebular materials inferred from [...]#0018
Marrocchi, Y.Solar system primordial water and dust: insights f[...]#0048
Marrocchi*, YOrigin and formation conditions of chondrules#0013
Matoušková, Š.Compositions of splashform- and Muong Nong-type Au[...]#0060
Merchel, S.Noble gases and radionuclides in Washington County[...]#0017
Mezger, K.53Cr/52Cr chromium model ages of ordinary chondrit[...]#0037
Mezger, K.M.Chondrule formation and subsequent reprocessing by[...]#0070
Meßling, N.Characterizing impact generated platinum-group ele[...]#0068
Michael, G.Lunar megaregolith mixing by impacts: spatial disp[...]#0014
Michael, G.G.Re-examination of the population, stratigraphy, an[...]#0038
Michael, G.G.The contribution of new impacts to the degradation[...]#0008
Mikouchi, T.First results on the new angrite NWA 12774#0050
Minton, D.A.The contribution of new impacts to the degradation[...]#0008
Mizera, J.Disentangling impactor type and post-collision pro[...]#0020
Mohr-Westheide*, T.Characterizing impact generated platinum-group ele[...]#0068
Mougel, B.Disentangling impactor type and post-collision pro[...]#0020
Moynier, F.Disentangling impactor type and post-collision pro[...]#0020
Münker, C.Secular evolution of W isotope anomalies in the Pi[...]#0072
Münker, C.Volatile element depletion in planetary materials#0063
Neal., C.R.A reassessment of the iron isotope composition of [...]#0019
Noack, L.Influence of mantle redox state on the atmospheric[...]#0026
Noack, L.The influence of K, Th, and U partition coefficien[...]#0022
Noack*, L.Heterogeneities in Earth’s mantle over time due [...]#0028
Oberst, J.Lunar megaregolith mixing by impacts: spatial disp[...]#0014
Oberst, J.Porosity signatures of large lunar impact basins#0006
Orgel, C.The contribution of new impacts to the degradation[...]#0008
Orgel*, C.Re-examination of the population, stratigraphy, an[...]#0038
Ortenzi*, G.Influence of mantle redox state on the atmospheric[...]#0026
Ott, U.The occurrence of silicon nitride in chondritic me[...]#0023
Ott*, U.Noble gases and radionuclides in Washington County[...]#0017
Pack , A.A xenolith in the Murchison CM chondrite formed by[...]#0055
Pack, A.Disentangling impactor type and post-collision pro[...]#0020
Pack, A.Triple oxygen isotope comparison between terrestri[...]#0047
Palasse, L.Characterizing impact generated platinum-group ele[...]#0068
Pape, J.53Cr/52Cr chromium model ages of ordinary chondrit[...]#0037
Pape*, J.P.Chondrule formation and subsequent reprocessing by[...]#0070
Patzek , M.A xenolith in the Murchison CM chondrite formed by[...]#0055
Patzek, M.Modal abundances of coarse-grained components with[...]#0044
Patzek, MHydrothermal alteration in the outer solar system [...]#0029
Patzek*, M.Assessing different types of C1 material by H, O, [...]#0045
Peters, S.Disentangling impactor type and post-collision pro[...]#0020
Peters, S.T.M.Triple oxygen isotope comparison between terrestri[...]#0047
Peters*, S.T.M.The nebular snow line recorded by photochemical su[...]#0073
Piani, L.Solar system primordial water and dust: insights f[...]#0048
Piralla*, M.Solar system primordial water and dust: insights f[...]#0048
Poitrasson, F.A reassessment of the iron isotope composition of [...]#0019
Ramasse, Q. M.Functional chemistry and isotopic composition of o[...]#0033
Reimold, W.U.Characterizing impact generated platinum-group ele[...]#0068
Riebe, M.E.I.Closed system step etching (CSSE) of MIL 090657 re[...]#0062
Riebe, M.E.I.Noble Gases in five NWA angrites – First detecti[...]#0071
Riedel, C.Re-examination of the population, stratigraphy, an[...]#0038
Riedel*, C.The contribution of new impacts to the degradation[...]#0008
Rocholl, A.Two-Stage Evolution of Lunar Granulite 79215 as Re[...]#0032
Rohrbach, A.SVEs during Earth’s core formation – Modeling [...]#0039
Rohrbach, A.R.Chalcophile Element Accretion from the Late Venee[...]#0031
Rosén, Å.V.R.Chondrule formation and subsequent reprocessing by[...]#0070
Révay, Zs.Bulk anaylsis of meteorites and micro-meteorite ca[...]#0056
Salge, T.Characterizing impact generated platinum-group ele[...]#0068
Scherer, E.E.Further evidence for a ~4.2 Ga age component in Ap[...]#0041
Schmid*, F.Chondritic d34S in rocks from the Earth´s mantle#0046
Schmidt*, G.Ru/Rh and Ir/Rh as diagnostic mass ratios for the [...]#0009
Schmidt*, J.M.The influence of K, Th, and U partition coefficien[...]#0022
Schmitt-Kopplin , P. A xenolith in the Murchison CM chondrite formed by[...]#0055
Schneider*, J.M.Complex mixing of nebular materials inferred from [...]#0018
Schofield, P.Functional chemistry and isotopic composition of o[...]#0033
Schulz*, B.Chemical and petrographical charakterization of am[...]#0027
Schweigert, G.New Shatter Cones from the Ries Crater#0058
Schwinger*, S.The FeO content of the lunar mantle – insights f[...]#0064
Simon, T.New Shatter Cones from the Ries Crater#0058
Skála, R.Disentangling impactor type and post-collision pro[...]#0020
Skála, R.Potassium systematics in tektites#0024
Skála*, R.Compositions of splashform- and Muong Nong-type Au[...]#0060
Sohl, F.Influence of mantle redox state on the atmospheric[...]#0026
Solferino, G.F.D.Two-stage formation of angular pallasites revealed[...]#0049
Spitzer*, F.Genetic heritage and chronology of ungrouped iron [...]#0012
Steinegger, P.Noble Gases in five NWA angrites – First detecti[...]#0071
Stieghorst, C.Bulk anaylsis of meteorites and micro-meteorite ca[...]#0056
Trieloff, M.Metallographic cooling rates of ordinary chondrite[...]#0034
Trieloff, M.Noble gases and radionuclides in Washington County[...]#0017
Tusch*, J.Secular evolution of W isotope anomalies in the Pi[...]#0072
Uysal, I.More on the Saricicek meteorite (howardite): shock[...]#0051
Van Kranendonk, M.Secular evolution of W isotope anomalies in the Pi[...]#0072
Vanderliek*, D.M.Two-Stage Evolution of Lunar Granulite 79215 as Re[...]#0032
Villeneuve, J.Solar system primordial water and dust: insights f[...]#0048
Villeneuve, JOrigin and formation conditions of chondrules#0013
Visser, R.Assessing different types of C1 material by H, O, [...]#0045
Visser*, RHydrothermal alteration in the outer solar system [...]#0029
Vogt, M.Noble gases and radionuclides in Washington County[...]#0017
Vollmer, C.Chemical and petrographical charakterization of am[...]#0027
Vollmer, C.Iron-60 in primitive meteorites: New in situ data#0042
Vollmer, C.The occurrence of silicon nitride in chondritic me[...]#0023
Vollmer*, C.Functional chemistry and isotopic composition of o[...]#0033
Wahl*, D.Porosity signatures of large lunar impact basins#0006
Wallner, A.Noble gases and radionuclides in Washington County[...]#0017
Walte*, N.P.Two-stage formation of angular pallasites revealed[...]#0049
Wang, K.Potassium systematics in tektites#0024
Whitehouse, M. J.Hydrothermal alteration in the outer solar system [...]#0029
Whitehouse, M.Two-Stage Evolution of Lunar Granulite 79215 as Re[...]#0032
Wieczorek, M. A.Porosity signatures of large lunar impact basins#0006
Wiesehfer*, T.A Smoothed Particle Hydrodynamics Method for Model[...]#0015
Wille, M.53Cr/52Cr chromium model ages of ordinary chondrit[...]#0037
Wimmer, K.More on the Saricicek meteorite (howardite): shock[...]#0051
Wimmer*, K.First results on the new angrite NWA 12774#0050
Wimmer*, K.New Shatter Cones from the Ries Crater#0058
Wombacher, F.Volatile element depletion in planetary materials#0063
Worsham*, E.A.Characterizing impactors on the Moon using Ru isot[...]#0059
Wölfer*, E.W and Mo isotopic constraints on the age and origi[...]#0021
Wünnemann, K.Impact-Induced Melting by Giant Impact Events#0016
Wünnemann, K.Lunar basin formation - a numerical modeling study[...]#0040
Wünnemann, K.Lunar megaregolith mixing by impacts: spatial disp[...]#0014
Wünnemann, K.W.Thermal state of the Earth after the Moon-forming [...]#0011
Zambardi, T.A reassessment of the iron isotope composition of [...]#0019
Zolensky , M. E.A xenolith in the Murchison CM chondrite formed by[...]#0055
van der Bogert, C.H.Geology and crater-size frequency distributions of[...]#0004
van der Bogert, C.H.Re-examination of the population, stratigraphy, an[...]#0038
van der Bogert, C.H.The contribution of new impacts to the degradation[...]#0008
Řanda, Z.Disentangling impactor type and post-collision pro[...]#0020
Žák, K.Disentangling impactor type and post-collision pro[...]#0020
Žák, K.Potassium systematics in tektites#0024