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Meteoritics & Planetary Science/Artykuły
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* Bischoff Addi, Barrat Jean-Alix, Bauer Kerstin, Burkhardt Christoph, Busemann Henner, Ebert Samuel, Gonsior Michael, Hakenmueller Janina, Haloda Jakub, Harries Dennis, Heinlein Dieter, Hiesinger Harald, Hochleitner Rupert, Hoffmann Viktor, Kaliwoda Melanie, Laubenstein Matthias, Maden Colin, Meier Matthias M.M., Morlok Andreas, Pack Andreas, Ruf Alexander, Schmitt-Kopplin Philippe, Schonbächler Maria, Steele Robert C.J., Spurný Pavel, Wimmer Karl, (2017), '''The [[Stubenberg]] meteorite—An LL6 chondrite fragmental breccia recovered soon after precise prediction of the strewn field''', ''Meteoritics & Planetary Science'', vol. 52(8), 2017, s. 1683–1703. Plik {{!doi|10.1111/maps.12883}}. | * Bischoff Addi, Barrat Jean-Alix, Bauer Kerstin, Burkhardt Christoph, Busemann Henner, Ebert Samuel, Gonsior Michael, Hakenmueller Janina, Haloda Jakub, Harries Dennis, Heinlein Dieter, Hiesinger Harald, Hochleitner Rupert, Hoffmann Viktor, Kaliwoda Melanie, Laubenstein Matthias, Maden Colin, Meier Matthias M.M., Morlok Andreas, Pack Andreas, Ruf Alexander, Schmitt-Kopplin Philippe, Schonbächler Maria, Steele Robert C.J., Spurný Pavel, Wimmer Karl, (2017), '''The [[Stubenberg]] meteorite—An LL6 chondrite fragmental breccia recovered soon after precise prediction of the strewn field''', ''Meteoritics & Planetary Science'', vol. 52(8), 2017, s. 1683–1703. Plik {{!doi|10.1111/maps.12883}}. | ||
- | * Bischoff Addi, Patzek Markus, Peters Stefan T.M., Barrat Jean-Alix,Di Rocco Tommaso , Pack Andreas, Ebert Samuel, Jansen Christian A., Kmieciak Kryspin, (2022), '''The chondrite breccia of [[Antonin]] (L4-5)—A new meteorite fall from Poland with a heterogeneous distribution of metal''', ''Meteoritics & Planetary Science'', 57(12), 2022, s. 2127-2142. Plik {{!doi|10.1111/maps.13905}}. | + | * Bischoff Addi, Patzek Markus, Peters Stefan T.M., Barrat Jean-Alix,Di Rocco Tommaso , Pack Andreas, Ebert Samuel, Jansen Christian A., Kmieciak Kryspin, (2022), '''The chondrite breccia of [[Antonin]] (L4-5)—A new meteorite fall from Poland with a heterogeneous distribution of metal''', ''Meteoritics & Planetary Science'', vol. 57(12), 2022, s. 2127-2142. Plik {{!doi|10.1111/maps.13905}}. |
- | * Bischoff | + | * {{Bischoff (2024)}} |
* {{Bland (2006)}} | * {{Bland (2006)}} |
Aktualna wersja na dzień 12:39, 25 paź 2024
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Meteoritics & Planetary Science, the Journal of the Meteoritical Society (MAPS) – kwartalnik wydawany przez The Meteoritical Society (International Society for Meteoritics and Planetary Science); ISSN 1086-9379 (online ISSN 1945-5100). W latach 1953-1995 (vol. 1-30) pismo ukazywało się pod nazwą Meteoritics (ISSN 0026-1114).
Bib-Code: Metic, M&PS i M&PSA.
Cytowany również pod nazwami/skrótami: Meteoritics ● Meteoritics and Planetary Science ● MaPS ● M&PS ● M&PSA (supplememt).
Meteoritical Bulletin (MetBull) – periodyczny dodatek do Meteoritics & Planetary Science.
Cytowany również pod nazwami/skrótami: MetBull ● MB ● Metic.
Wybrane artykuły o meteorach i meteorytach w Meteoritics & Planetary Science i Meteoritics.
Meteoritics & Planetary Science
MetSoc
- Annual Meetings of the Meteoritical Society; Meetings
A
- Altunayar-Unsalan Cisem, Unsalan Ozan, Szurgot Marian A., Wach Radosław A., (2021), Specific heat and thermal history of the Sariçiçek howardite, Meteoritics & Planetary Science, vol. 56(11), 2021, s. 2103-2117.[1] Plik doi.
B
- Barrett T.J., King A.J., Degli-Alessandrini G., Hammond S.J., Humphreys-Williams E., Schmidt B., Greenwood R.C., Abernethy F.A.J., Anand M., Rudnickaitė E., (2024), A mineralogical and isotopic study of the historic monomict eucrite Padvarninkai, Meteoritics & Planetary Science, vol. 59(6), 2024, ss. 18. Plik doi.
- Bartoschewitz Rainer, Spettel Bernhard, (2001), Tabarz – A Fragment of the Morasko Strewn Field?, Meteoritics & Planetary Science, vol. 36(S9), 2001, A15-A16. Plik doi.
- Bischoff Addi, Jersek Miha, Grau Thomas, Mirtic Breda, Ott Ulrich, et al., (2011), Jesenice – A new meteorite fall from Slovenia, Meteoritics & Planetary Science, vol. 46(6), 2011, s. 793-804. Plik doi; plik aDs.
- Bischoff Addi, Barrat Jean-Alix, Bauer Kerstin, Burkhardt Christoph, Busemann Henner, Ebert Samuel, Gonsior Michael, Hakenmueller Janina, Haloda Jakub, Harries Dennis, Heinlein Dieter, Hiesinger Harald, Hochleitner Rupert, Hoffmann Viktor, Kaliwoda Melanie, Laubenstein Matthias, Maden Colin, Meier Matthias M.M., Morlok Andreas, Pack Andreas, Ruf Alexander, Schmitt-Kopplin Philippe, Schonbächler Maria, Steele Robert C.J., Spurný Pavel, Wimmer Karl, (2017), The Stubenberg meteorite—An LL6 chondrite fragmental breccia recovered soon after precise prediction of the strewn field, Meteoritics & Planetary Science, vol. 52(8), 2017, s. 1683–1703. Plik doi.
- Bischoff Addi, Patzek Markus, Peters Stefan T.M., Barrat Jean-Alix,Di Rocco Tommaso , Pack Andreas, Ebert Samuel, Jansen Christian A., Kmieciak Kryspin, (2022), The chondrite breccia of Antonin (L4-5)—A new meteorite fall from Poland with a heterogeneous distribution of metal, Meteoritics & Planetary Science, vol. 57(12), 2022, s. 2127-2142. Plik doi.
- Bischoff Addi, Patzek Markus, Barrat Jean-Alix, Berndt Jasper, Busemann Henner, Degering Detlev, Di Rocco Tommaso, Ek Mattias, Harries Dennis, Godinho Jose R.A., Heinlein Dieter, Kriele Armin, Krietsch Daniela, Maden Colin, Marchhart Oscar, Marshal Rachael M., Martschini Martin, Merchel Silke, Möller Andreas, Pack Andreas, Raab Herbert, Reitze Maximilian P., Rendtel Ina, Rüfenacht Miriam, Sachs Oliver, Schönbächler Maria, Schuppisser Anja, Weber Iris, Wieser Alexander, Wimmer Karl, (2024), Cosmic pears from the Havelland (Germany): Ribbeck, the twelfth recorded aubrite fall in history, Meteoritics & Planetary Science, vol. 59(10), 2024, s. 2660-2694 (abstrakt). Plik doi.
- Bland Philip A., Artemieva Natalya A., (2006), The rate of small impacts on Earth, Meteoritics & Planetary Science, vol. 41(4), 2006, s. 607–631 (abstrakt). Plik doi; plik aDs.
- Borovička Jiří, Spurný Pavel, Kalenda Pavel, et al., (2003), The Morávka meteorite fall: 1. Description of the events and determination of the fireball trajectory and orbit from video records. 2. Interpretation of infrasonic and seismic data. 3. Meteoroid initial size, history, structure, and composition. 4. Meteoroid dynamics and fragmentation in the atmosphere, Meteoritics & Planetary Science, vol. 38(7), 2003, s. 975–1043. Plik doi; Plik aDs.
- Borovička Jiří, Tóth Juraj, Igaz Antal, Spurný Pavel, Kalenda Pavel, Haloda Jakub, Svoreň Ján, Kornoš Leonard, Silber Elizabeth, Brown Peter, Husárik Marek, (2013), The Košice meteorite fall: Atmospheric trajectory, fragmentation, and orbit, Meteoritics & Planetary Science, vol. 48(10), 2013, s. 1757–1779.[2] Plik doi; plik aDs.
- Borovička Jiří, Spurný Pavel, Šegon Damir, Andreić Željko, Kac Javor, Korlević Korado, Atanackov Jure, Kladnik Gregor, Mucke Hermann, Vida Denis, Novoselnik Filip, (2015), The instrumentally recorded fall of the Križevci meteorite, Croatia, February 4, 2011, Meteoritics & Planetary Science, vol. 50(7), 2015, s. 1244–1259. Plik doi; plik aDs.
- Brachaniec Tomasz, Szopa Krzysztof, Karwowski Łukasz, (2014), Discovery of the most distal Ries tektites found in Lower Silesia, southwestern Poland, Meteoritics & Planetary Science, vol. 49(8), 2014, s. 1315-1322.[3] Plik doi.
- Brachaniec Tomasz, Szopa Krzysztof, Karwowski Łukasz, (2015), A new discovery of parautochthonous moldavites in southwestern Poland, Central Europe, Meteoritics & Planetary Science, vol. 50(10), 2015, s. 1697-1702. Plik doi.
- Brachaniec Tomasz, (2017), An experimental model for the tektite fluvial transport based on the most distal Polish moldavite occurrences, Meteoritics & Planetary Science, vol. 53(3), 2017, s. 505-513. Plik doi.
- Brachaniec Tomasz, (2020), A scheme for moldavite fluvial abrasion based on observations from a natural river stream, Meteoritics & Planetary Science, vol. 55(10), 2020, s. 2171-2183. Plik doi.
- Bronikowska Małgorzata, Artemieva Natalia A., Wünnemann Kai, Szczuciński Witold, (2016), Reconstruction of the Morasko meteorite impact: from atmospheric entry to individual crater formation—insight from numerical modeling, Meteoritics & Planetary Science, vol. 51(S1), 2016, s. A182. Plik doi.
- Bronikowska Małgorzata, Artemieva Natalia A., Wünnemann Kai, (2017), Reconstruction of the Morasko meteoroid impact—Insight from numerical modeling, Meteoritics & Planetary Science, vol. 52(8), 2017, s. 1704-1721 (abstrakt). Plik doi.
- Buchwald Vagn Fabritius, Clarke Roy S. (Jr.), (1987), The Verkhne Dnieprovsk iron meteorite specimens in the Vienna Collection and the confusion of Verkhne Dnieprovsk with Augustinovka, Meteoritics, 22(2), 1987, s. 121-135.[4][5] Plik doi.
- Bukovanská Marcela, Jakeš Petr, Pernicka Ernst, El Goresy Ahmed, (1983), Ústí nad Orlicí: A new L6 chondrite from Czechoslovakia, Meteoritics, 18(3), 1983, s. 223-240. Plik doi; plik aDs.
- Bukovanská Marcela, (1983), Žebrák (Praskolesy): A H5 Chondrite from Czechoslovakia, Meteoritics, 18(4), 1983, s. 274. Plik doi; plik aDs.
C
- Ceplecha Zdeněk, ReVelle Douglas O., (2005), Fragmentation model of meteoroid motion, mass loss, and radiation in the atmosphere, Meteoritics & Planetary Science, vol. 40(1), 2005, s. 35–54. Plik doi.
- Classen Johannes Robert, (1978), The meteorite craters of Morasko in Poland, Meteoritics, vol. 13(2), 1978, s. 245-255. Plik doi; plik aDs.
- Czegka Wolfgang, (1996), Remarks on the Morasko Crater Field and Some of Its Lost Morphological Features, Meteoritics & Planetary Science, vol. 31(S4), 1996, s. A34. Plik doi; plik aDs.
D
- Dauphas Nicolas, Zanda Brigitte, Dubouloz Yannick, Allemand Jacques, Sangély Laure, (2000), A new H5/S3/W1 brecciated meteorite from France, Meteoritics & Planetary Science, vol. 35(S5), 2000, s. A46. Plik doi; plik aDs.
- Dominik Bogna → patrz podstrona Bibliografia: Dominik Bogna
G
- Gnos Edwin, Hofmann Beda A., Al-Kathiri Ali Faraj Ahmed, Lorenzetti Silvio, Eugster Otto, Jull A.J. Timothy, (2003), The newly discovered Jiddat Al Harasis strewnfield in Oman, Meteoritics & Planetary Science, vol. 38(S7), 2003, s. A31.[6] Plik doi; plik aDs.
- Gnos Edwin, Lorenzetti Silvio, Eugster Otto, Jull A.J. Timothy, Hofmann Beda A., Al-Kathiri Ali Faraj Ahmed, Eggimann Manuel, (2003), The Jiddat Al Harasis 073 strewn field, Sultanate of Oman, Meteoritics & Planetary Science, vol. 44(3), 2003, s. 375-387.[6] Plik doi; plik aDs.
- Gostin Victor A., Żbik Marek, (1999), Petrology and microstructure of distal impact ejecta from the Flinders Ranges, Australia, Meteoritics & Planetary Science, vol. 34(4), 1999, s. 587-592.[7] Plik doi.
- Gounelle Matthieu, Spurný Pavel, Bland Philip A., (2006), The orbit and atmospheric trajectory of the Orgueil meteorite from historical records, Meteoritics & Planetary Science, vol. 41(1), 2006, s. 135–150.[8] Plik doi; plik aDs.
- Gritsevich Maria, Vinnikov Vladimir, Kohout Tomáš, Tóth Juraj, Peltoniemi Jouni, Turchak Leonid, Virtanen Jenni, (2014), A comprehensive study of distribution laws for the fragments of Košice meteorite, Meteoritics & Planetary Science, vol. 49(3), 2014, s. 328-345. Plik doi.
- Grossman Jeffrey N., Zipfel Jutta, (2001), The Meteoritical Bulletin, No. 85, 2001 September, Meteoritics & Planetary Science, vol. 36(S9), 2001, A293-A322 (A314). Plik doi; plik PDF.
H
- Herbst William, Greenwood James P., (2024), Chondrule formation during low-speed collisions of planetesimals: A hybrid splash–flyby framework, Meteoritics & Planetary Science, vol. online, 2024, ss. 15.[9] Plik doi.
- Hofmann Beda A., Gnos Edwin, Al-Kathiri Ali Faraj Ahmed, Al-Azri Hilal, Al-Muraza Akram, (2003), Omani-Swiss meteorite search 2001-2003: Project overview, Meteoritics & Planetary Science, vol. 38(S7), 2003, A54. Plik doi; plik aDs.
I
- Iancu Gabriel O., Ionescu Corina, Topa Dan, (2005), Petrological and geochemical classification of the Sopot chondrite, Meteoritics & Planetary Science, vol. 40(S9), 2005, A71. Plik doi.
K
- Kalasová Dominika, Zikmund Tomáš, Spurný Pavel, Haloda Jakub, Borovička Jiří, Kaiser Jozef, (2020), Chemical and physical properties of Žďár nad Sázavou L chondrite and porosity differentiation using computed tomography, Meteoritics & Planetary Science, vol. 55(5), 2020, s. 1073-1081. Plik doi.
- Karwowski Łukasz → patrz podstrona Bibliografia: Karwowski Łukasz
- Kelley Simon P., Gurov Eugene P., (2002), Boltysh, another end-Cretaceous impact, Meteoritics & Planetary Science, vol. 37(8), 2002, s. 1031-1043. Plik doi.
- Koeberl Christian, Brandstätter Franz, Niedermayr Gerhard, Kurat Gero, (1988), Moldavites from Austria, Meteoritics, 23(4), 1988, s. 325-332. Plik doi; plik aDs.
- Korpikiewicz Honorata → patrz podstrona Bibliografia: Korpikiewicz Honorata
- Kotowiecki Andrzej, (2004), Artifacts in Polish collections made of meteoritic iron, Meteoritics & Planetary Science, vol. 39(S8), 2004, s. A151-A156. Plik doi; plik aDs.
- Krzesińska Agata, Fritz Jörg, (2014), Weakly shocked and deformed CM microxenoliths in the Pułtusk H chondrite, Meteoritics & Planetary Science, vol. 49(4), 2014, s. 595–610. Plik doi.
- Krzesińska Agata, Gattacceca Jérôme, Friedrich Jon M., Rochette Pierre, (2015), Impact-related noncoaxial deformation in the Pułtusk H chondrite inferred from petrofabric analysis, Meteoritics & Planetary Science, vol. 50(3), 2015, s. 401-417. Plik doi.
- Krzesińska Agata M., (2017), Contribution of early impact events to metal-silicate separation, thermal annealing, and volatile redistribution: Evidence in the Pułtusk H chondrite, Meteoritics & Planetary Science, vol. 52(11), 2017, s. 2305-2321. Plik doi.
- Krzesińska Agata M., Almeida Natasha V., (2019), Evidence of shock‐induced vaporization of matrix to form porosity in Baszkówka, a porous L5 chondrite, Meteoritics & Planetary Science, vol. 54(1), 2019, s. 54-71. Plik doi.
- Krzesińska Agata M., Wirth Richard, Kusiak Monika A., (2019), Petrogenesis of ungrouped enstatite meteorite Zakłodzie: Fabric, texture, and nanostructure analysis for identification of mechanisms responsible for chondrite–achondrite transition, Meteoritics & Planetary Science, vol. 54(7), 2019, s. 1462-1477. Plik doi.
L
- Lang Bruno → patrz podstrona Bibliografia: Lang Bruno
- LaPaz Lincoln, (1956), The Canadian Fireball Procession of 1913 February 9, Meteoritics, vol. 1(4), 1956, s. 402-405. Plik doi; plik aDs.
- Leonard Frederick C., (1955), Mineral Formulas, the Classificational Sequence, and the Aouelloul Crater, Meteoritics, vol. 1(3), 1955, s. 324-327. Plik doi; plik aDs.
- Leonard Frederick C., Rowland Gerald L., (1956), An Index Catalog of the Multiple Meteoritic Falls of the World, Meteoritics, vol. 1(4), 1956, s. 440-450. Plik doi; plik aDs.
- Levi-Donati G.R., (1987), Petrological Features of the Nagy-Borové, Czechoslovakia Stones: A Comparison with Other L5 Ordinary Chondrites, Meteoritics, vol. 22(4), 1987, s. 443-444. Plik doi; plik aDs.
Ł
- Łosiak Anna, Velbel Michael A., (2011), Evaporite formation during weathering of Antarctic meteorites–A weathering census analysis based on the ANSMET database, Meteoritics & Planetary Science, vol. 46(3), 2011, s. 443-458.[10] Plik doi.
- Łosiak Anna, Wild Eva M., Geppert Wolf D., Huber Matthew S., Jõeleht Argo, Kriiska Aivar, Kulkov Alexander, Paavel Kristiina, Pirkovic Irena, Plado Jüri, Steier Peter, Välja Rudolf, Wilk Jakob, Wisniowski Tomek, Zanetti Michael, (2016), Dating a small impact crater: An age of Kaali crater (Estonia) based on charcoal emplaced within proximal ejecta, Meteoritics & Planetary Science, vol. 51(4), 2016, s. 681-695.[11] Plik doi.
- Łosiak Anna, Jõeleht Argo, Plado Jüri, Szyszka Mateusz, Kirsimäe Kalle, Wild Eva M., Steier Peter, Belcher Claire, Jaźwa Aleksandra M., Helde E., (2020), Determining the age and possibility for an extraterrestrial impact formation mechanism of the Ilumetsä structures (Estonia), Meteoritics & Planetary Science, vol. 55(2), 2020, s. 274-293.[12][11] Plik doi.
M
- Maruyama Seiji, Borucki Jerzy, Stępniewski Marian, (2000), Oxygen-isotopic compositions of picotite-bearing chondrules from Baszkówka L5 (S1), Meteoritics & Planetary Science, vol. 35(S5), 2000, s. A103-A104. Plik doi.
- Marvin Ursula B., (1992), The meteorite of Ensisheim: 1492 to 1992, Meteoritics, vol. 27(1), 1992, s. 28-72.[13][14] Plik doi; plik aDs.
- Marvin Ursula B., (1996), Ernst Florens Friedrich Chladni (1756-1827) and the origins of modern meteorite research, Meteoritics & Planetary Science, vol. 31(5), 1996, s. 545-588. Plik doi.
- Marvin Ursula B., (2010), Ernst Florens Friedrich Chladni (1756–1827) and the origins of modern meteorite research, Meteoritics & Planetary Science, vol. 42(S9), 2010, s. B3-B68. Plik doi.
- The Meteoritical Bulletin, (1965), Krinow Ewgeni L. (red.), No. 33, March 1965, s. 1-6.[15] Plik PDF.
- The Meteoritical Bulletin, No. 78, 1995 November, (1995), Wlotzka Frank (red.), Meteoritics, vol. 30(6), 1995, s. 792-796.[16] Plik doi.
- Miler Miloš, Gosar Mateja, (2011), Mineral and chemical composition of the new iron meteorite Javorje from Slovenia, Meteoritics & Planetary Science, vol. 42(12), 2011, s. 1939–1946. Plik doi.
- Miler Miloš, Ambrožič Bojan, Mirtič Breda, Gosar Mateja, Šturm Sašo, Dolenec Matej, Jeršek Miha, (2014), Mineral and chemical composition of the Jezersko meteorite—A new chondrite from Slovenia, Meteoritics & Planetary Science, vol. 49(10), 2014, s. 1875–1887. Plik doi.
O
- Oberst Juergen, Molau Sirko, Heinlein Dieter, Gritzner Christian, Schindler M., Spurný Pavel, Ceplecha Zdeněk, Rendtel Jürgen, Betlem Hans, (1998), The „European Fireball Network”: current status and future prospects, Meteoritics & Planetary Science, vol. 33(1), 1998, s. 49-56. Plik doi; plik aDs.
- Ozdín Daniel, Plavčan Jozef, Horňáčková Michaela, Uher Pavel, Porubčan Vladimír, Veis Pavel, Rakovský Jozef, Tóth Juraj, Konečný Patrik, Svoreň Ján, (2015), Mineralogy, petrography, geochemistry, and classification of the Košice meteorite, Meteoritics & Planetary Science, vol. 50(5), 2015, s. 864–879. Plik doi; plik aDs.
P
- Patzer Andrea, Franke Luitgard, Schultz Ludolf, (2001), New noble gas data of four enstatite chondrites and Zakłodzie, Meteoritics & Planetary Science, vol. 36(S9), 2001, s. A157-A158. Plik doi.
- Patzer Andrea, Hill Dolores H., Boynton William V., Franke Luitgard, Schultz Ludolf, Jull A.J.Timothy, McHargue Lanny R., Franchi Ian A., (2002), Itqiy: A study of noble gases and oxygen isotopes including its terrestrial age and a comparison with Zakłodzie, Meteoritics & Planetary Science, vol. 37(6), 2002, s. 823-833. Plik doi.
- Pilski Andrzej Sylwester → patrz podstrona Bibliografia: Pilski Andrzej Sylwester
- Plado Jüri, (2012), Meteorite impact craters and possibly impact-related structures in Estonia, Meteoritics & Planetary Science, vol. 47(10), 2012, s. 1590-1605. Plik doi.
- Plado Jüri, Łosiak Anna, Jõeleht Argo, Ormö Jens, Alexanderson Helena, Alwmark Carl, Wild Eva M., Steier Peter, Awdankiewicz Marek, Belcher Claire, (2022), Discriminating between impact or nonimpact origin of small meteorite crater candidates: No evidence for an impact origin for the Tor crater, Sweden, Meteoritics & Planetary Science, vol. 57(11), 2022, s. 1987-2002. Plik doi.
- Popova Olga, Borovička Jiří, Hartmann William K., Spurný Pavel, Gnos Edwin, Nemtchinov Ivan, Trigo-Rodríguez Josep M., (2011), Very low strengths of interplanetary meteoroids and small asteroids, Meteoritics & Planetary Science, vol. 46(10), 2011, s. 1525-1550. Plik doi.
- Povinec Pavel P., Tóth Juraj, (2015), The Fall of the Košice Meteorite, Meteoritics & Planetary Science, vol. 50(5), 2015, s. 851-852. Plik doi; plik aDs.
- Povinec Pavel P., Masarik Jozef, Sýkora Ivan, Kováčik Andrej, Beňo Juraj, Meier Matthias M.M., Wieler Rainer, Laubenstein Matthias, Porubčan Vladimir, (2015), Cosmogenic nuclides in the Košice meteorite: Experimental investigations and Monte Carlo simulations, Meteoritics & Planetary Science, vol. 50(5), 2015, s. 880-892. Plik doi; plik aDs.
- Przylibski Tadeusz Andrzej → patrz podstrona Bibliografia: Przylibski Tadeusz Andrzej
R
- Rochette Pierre, Sagnotti Leonardo, Bourot-Denise Michèle, Consolmagno Guy, Folco Luigi, Gattacceca Jérôme, Osete Maria Luisa, Pesonen Lauri, (2003), Magnetic classification of stony meteorites: 1. Ordinary chondrites, Meteoritics & Planetary Science, vol. 38(2), 2003, s. 251-268 (→ więcej). Plik doi.
- Rodovská Zuzana, Magna Tomáš, Žák karel, Skála Roman, Brachaniec Tomasz, Visscher Channon, (2016), The fate of moderately volatile elements in impact events—Lithium connection between the Ries sediments and central European tektites, Meteoritics & Planetary Science, vol. 51(12), 2016, s. 2403-2415.[3] Plik doi.
- Ruzicka Alex, Hutson Melinda, (2006), Differentiation and evolution of the IVA meteorite parent body: Clues from pyroxene geochemistry in the Steinbach stony-iron meteorite, Meteoritics & Planetary Science, vol. 41(12), 2006, s. 1959-1987. Plik doi.
S
- Schultz L., Weber H.W., (2003), The Noble Gas Record of Central Europe's Stone Meteorites, Meteoritics & Planetary Science, vol. 38(S7), 2003, s. A38. Plik doi.
- Shrbený Lukáš, Krzesińska Agata M., Borovička Jiří, Spurný Pavel, Tymiński Zbigniew, Kmieciak Kryspin, (2022), Analysis of the daylight fireball of July 15, 2021, leading to a meteorite fall and find near Antonin, Poland, and a description of the recovered chondrite, Meteoritics & Planetary Science, vol. 57(12), 2022, s. 2108-2126 (abstrakt). Plik doi.
- Sliz Malgorzata U., Hofmann Beda A., Leya Ingo, Szidat Sönke, Espic Christophe, Gattacceca Jérôme, Braucher Régis, Borschneck Daniel, Gnos Edwin, ASTER Team, (2022), Terrestrial ages of seven meteorite strewn fields and two single unpaired meteorites from the Sultanate of Oman determined using 14C and 10Be, Meteoritics & Planetary Science, vol. 57(12), 2022, s.2170-2191.[6][17][18][19] Plik doi.
- Słaby Ewa, Koch‐Müller Monika, Förster Hans‐Jürgen, Wirth Richard, Rhede Dieter, Schreiber Anja, Schade Ulrich, (2016), Determination of volatile concentrations in fluorapatite of Martian shergottite NWA 2975 by combining synchrotron FTIR, Raman spectroscopy, EMPA, and TEM, and inferences on the volatile budget of the apatite host‐magma, Meteoritics & Planetary Science, vol. 51(2), 2016, s. 390-406. Plik doi.
- Spurný Pavel, Borovička Jiří, Kac Javor, Kalenda Pavel, et al., (2010), Analysis of instrumental observations of the Jesenice meteorite fall on April 9, 2009, Meteoritics & Planetary Science, vol. 45(8), 2010, s. 1392-1407. Plik doi; plik aDs.
- Spurný Pavel, Borovička Jiří, Shrbený Lukáš, (2020), The Žďár nad Sázavou meteorite fall: Fireball trajectory, photometry, dynamics, fragmentation, orbit, and meteorite recovery, Meteoritics & Planetary Science, vol. 55(2), 2020, s. 376-401. Plik doi.
- Stępniewski Marian → patrz podstrona Bibliografia: Stępniewski Marian
- Szczuciński Witold, Pleskot Krzysztof, Makohonienko Mirosław, Tjallingii Rik, Apolinarska Karina, Cerbin Sławomir, Goslar Tomasz, Nowaczyk Norbert, Rzodkiewicz Monika, Słowiński Michał, Woszczyk Michał, Brauer Achim, (2016), Environmental effects of small meteorite impact in unconsolidated sediments - case of iron meteorite shower in Morasko, Poland, Meteoritics & Planetary Science, vol. 51(S1), 2016, s. A609. Plik doi.
- Szokaluk Monika, Muszyński Andrzej, Jagodziński Robert, Szczuciński Witold, (2016), Properties of ejecta blanket deposits surrounding Morasko meteorite impact craters (Poland) , Meteoritics & Planetary Science, vol. 51(S1), 2016, s. A610. Plik doi.
- Szokaluk Monika, Jagodziński Robert, Muszyński Andrzej, Szczuciński Witold, (2019), Geology of the Morasko craters, Poznań, Poland—Small impact craters in unconsolidated sediments, Meteoritics & Planetary Science, vol. 54(7), 2019, s. 1478-1494. Plik doi.
- Szopa Krzysztof, Brachaniec Tomasz, Karwowski Łukasz, Krzykawski Tomasz, (2017), Remnants of altered meteorite in the Cretaceous-Paleogene clay boundary in Poland, Meteoritics & Planetary Science, vol. 52(4), 2017, s. 612–622. Plik doi.
T
- Tóth Juraj, Svoreň Ján, Borovička Jiří, Spurný Pavel, Igaz Antal, Kornoš Leonard, Vereš Peter, Husárik Marek, Koza Július, Kučera Aleš, Zigo Pavel, Gajdoš Štefan, Világi Jozef, Čapek David, Krišandová Zuzana, Tomko Dušan, Šilha Jiří, Schunová Eva, Bodnárová Marcela, Búzová Diana, Krejčová Tereza, (2015), The Košice meteorite fall: Recovery and strewn field, Meteoritics & Planetary Science, vol. 50(5), 2015, s. 853–863.[2] Plik doi; plik aDs.
W
- Wimmer Karl, Gnos Edwin, Hofmann Beda A., (2022), Once in a summer: Fall history of the JaH 073 strewn field, Sultanate of Oman, Meteoritics & Planetary Science, vol. 57(12), 2022, s. 2216-2228.[6] Plik doi.
- Wlotzka Frank, Scherer Peter, Schultz Ludolf, Otto Jürgen, Stępniewski Marian, (1997), Petrography and noble gases of the unusual L5 chondrites Baszkówka and Mt. Tazerzait, Meteoritics & Planetary Science, vol. 32(S4), 1997, s. A140-A141.[20][21] Plik doi.
- Włodarski Wojciech, Papis Joanna, Szczuciński Witold, (2016), Morphology of Morasko crater field: an interaction of glacial and impact landforms, Meteoritics & Planetary Science, vol. 51(S1), 2016, s. A668. Plik doi.
- Woźniak Marek, Gałązka‐Friedman Jolanta, Duda Przemysław, Jakubowska Martyna, Rzepecka Patrycja, Karwowski Łukasz, (2019), Application of Mössbauer spectroscopy, multidimensional discriminant analysis, and Mahalanobis distance for classification of equilibrated ordinary chondrites, Meteoritics & Planetary Science, vol. 54(8), 2019, s. 1828-1839 (abstrakt).[22] Plik doi.
Ż
- Żbik Marek → patrz podstrona Bibliografia: Żbik Marek
Bibliografia
- Biała Jadwiga, Manecki Andrzej, (2011), Bibliografia meteorytyki polskiej (1805-2010) (Bibliography of Polish Meteoritics (1805-2010)), Polskie Towarzystwo Meteorytowe, Sosnowiec 2011. ISBN 978-83-921834-1-9.
- Koblitz Jörn, MetBase. Meteorite Data Retrieval Software, Version 7.3 (CD-ROM), Ritterhude, Germany 1994-2012. MetBase.
Źródła plików
- Wiley Online Library – Meteoritics & Planetary Science (abstracts; limited access)
- The SAO/NASA Astrophysics Data System (ADS) – M&PS ● M&PSA (full access)
- ads.springer.de – SAO/NASA Astrophysics Data System (ADS) (Bib-Code: Metic, M&PS i M&PSA) (full access)
- The Meteoritical Society – Meteoritical Bulletin Archive
Przypisy
Zobacz również
- meteoryty: Baszkówka, Bialystok (Białystok), Jesenice, Košice, Križevci, Morávka, Ribbeck, Sologne, Zakłodzie, Žďár nad Sázavou
- krater Bołtysz, Tektyty
Linki zewnętrzne
- The Meteoritical Society – Meteoritics & Planetary Science
- Wiley Online Library – Meteoritics & Planetary Science