Author index (Paneth Kolloquium, 2021)

Author Title PDF
*corresponding author
Abouchami*, W.Cadmium stable isotopes in the lunar regolith#0026
Anand, M.O isotope variations in IIIAB iron meteorites#0039
Batanova, V.Chondrule formation in ordinary chondrites#0020
Batanova, V.Spinel in CV chondrules: Insights into chondrule t[...]#0021
Bischoff, A.Distribution and chemistry of Fe-Ni metal in lunar[...]#0033
Bragagni*, A.Sn isotopes in chondrites and Earth: MIF and radio[...]#0037
Braukmüller, N.Sn isotopes in chondrites and Earth: MIF and radio[...]#0037
Cartier, C.Spinel in CV chondrules: Insights into chondrule t[...]#0021
Filiberto, J.Constraining the stability of carbonates and low-g[...]#0029
Fischer, M.B.A cannon ball impact model of Moon formation and t[...]#0041
Fischer-Gödde*, M.Ruthenium isotope composition of Archean spherule [...]#0038
Franchi, I.A.O isotope variations in IIIAB iron meteorites#0039
Galer, S.J.G.Cadmium stable isotopes in the lunar regolith#0026
German*, B.R.Atmospheric anomalies of the 1908 Tungus event.#0015
German*, B.R.Comment on "A Tunguska sized airburst destroyed Ta[...]#0019
German*, B.R.Magnetic registrations during the Tungus event.#0016
German*, B.R.On the alleged unique disruption of an asteroid ov[...]#0014
German*, B.R.The microbarogram of the 1908 Tungus event.#0017
German*, B.R.The multiactivity of the Tunguska paleovolcano#0018
Greenwood, R.C.O isotope variations in IIIAB iron meteorites#0039
Guignard, J.Evolution of acapulcoites and lodranites: Joining [...]#0031
Haber*, T.A ~4.16 Ga impact event on the Moon recorded by lu[...]#0027
Hartogh, P.A cannon ball impact model of Moon formation and t[...]#0041
Hasse, T.High-precision triple oxygen isotope analyses of s[...]#0028
Hasse*, T.Potentials of urban micrometeorite research#0023
Herwartz, D.A cannon ball impact model of Moon formation and t[...]#0041
Hoffmann*, V.H.Erg Chech 002 and the (Trachy-) Andesite Meteorite[...]#0040
Hopp, J.Solar He & Ne in different groups of iron meteorit[...]#0025
Jacquet, E.Chondrule formation in ordinary chondrites#0020
Jacquet*, E.Isolated Olivine Grains Revisited#0013
John, T.Distribution and chemistry of Fe-Ni metal in lunar[...]#0033
Kadlag*, Y.26Al-26Mg ages of chondrules from ordinary and car[...]#0032
Kaliwoda, M.Erg Chech 002 and the (Trachy-) Andesite Meteorite[...]#0040
Kersaho, P.Isolated Olivine Grains Revisited#0013
Kirchenbaur, MSn isotopes in chondrites and Earth: MIF and radio[...]#0037
Kleine, T.A ~4.16 Ga impact event on the Moon recorded by lu[...]#0027
Leya, I.26Al-26Mg ages of chondrules from ordinary and car[...]#0032
Ludwig, T.Solar He & Ne in different groups of iron meteorit[...]#0025
Marrocchi *, YOrigin of hydrogen isotopic variations in chondrit[...]#0024
Marrocchi, Y.Chondrule formation in ordinary chondrites#0020
Marrocchi, Y.Isolated Olivine Grains Revisited#0013
Marrocchi, Y.Spinel in CV chondrules: Insights into chondrule t[...]#0021
Mezger, K.26Al-26Mg ages of chondrules from ordinary and car[...]#0032
Monnereau, M.Evolution of acapulcoites and lodranites: Joining [...]#0031
Münker , C.Sn isotopes in chondrites and Earth: MIF and radio[...]#0037
Néri*, A.Evolution of acapulcoites and lodranites: Joining [...]#0031
Ott, U.Solar He & Ne in different groups of iron meteorit[...]#0025
Pack, A.High-precision triple oxygen isotope analyses of s[...]#0028
Pack*, A.A cannon ball impact model of Moon formation and t[...]#0041
Peters, S.T.M.A cannon ball impact model of Moon formation and t[...]#0041
Piani, LOrigin of hydrogen isotopic variations in chondrit[...]#0024
Piralla, M.Isolated Olivine Grains Revisited#0013
Piralla*, M.Chondrule formation in ordinary chondrites#0020
Quitté, G.Evolution of acapulcoites and lodranites: Joining [...]#0031
Regnault, M.Spinel in CV chondrules: Insights into chondrule t[...]#0021
Scherer, E.E.A ~4.16 Ga impact event on the Moon recorded by lu[...]#0027
Schmahl, W.Erg Chech 002 and the (Trachy-) Andesite Meteorite[...]#0040
Schmidt*, G.Impact craters made by iron projectiles#0022
Schmitt-Kopplin, P.Erg Chech 002 and the (Trachy-) Andesite Meteorite[...]#0040
Schnuriger*, N.Spinel in CV chondrules: Insights into chondrule t[...]#0021
Schwarz, W.H.Solar He & Ne in different groups of iron meteorit[...]#0025
Schwenzer, S.P.Constraining the stability of carbonates and low-g[...]#0029
Schwenzer*, S.P.Water-rock reaction pathway modeling for Mars – [...]#0030
Semprich*, J.Constraining the stability of carbonates and low-g[...]#0029
Storz*, J.Distribution and chemistry of Fe-Ni metal in lunar[...]#0033
Stracke, T.High-precision triple oxygen isotope analyses of s[...]#0028
Sukhanova*, K.Trace elements and three oxygen isotopes ratios in[...]#0036
Toplis, M.J.Evolution of acapulcoites and lodranites: Joining [...]#0031
Treiman, A.H.Constraining the stability of carbonates and low-g[...]#0029
Trieloff, M.Solar He & Ne in different groups of iron meteorit[...]#0025
Villeneuve, J.26Al-26Mg ages of chondrules from ordinary and car[...]#0032
Villeneuve, J.Chondrule formation in ordinary chondrites#0020
Villeneuve, J.Spinel in CV chondrules: Insights into chondrule t[...]#0021
Vogt*, M.Solar He & Ne in different groups of iron meteorit[...]#0025
Wimmer, K.Erg Chech 002 and the (Trachy-) Andesite Meteorite[...]#0040
Windmill*, R.J.O isotope variations in IIIAB iron meteorites#0039
Wombacher, F.Cadmium stable isotopes in the lunar regolith#0026
Wombacher, F.Sn isotopes in chondrites and Earth: MIF and radio[...]#0037
Wombacher*, F.Mercury (Hg) abundances in recent carbonaceous cho[...]#0035
Worsham, E.A ~4.16 Ga impact event on the Moon recorded by lu[...]#0027
Zahnow*, F.High-precision triple oxygen isotope analyses of s[...]#0028