Publikationen Dr. Rupert Hochleitner

1. Schröcke, H., Trumm, A. & Hochleitner, R. (1982): Über den Transport von Wolfram und den Absatz von Wolfram-Doppeloxiden in fluiden wässrigen Lösungen. Fortschr. Miner., 60, H.2, S. 187-213.

2.Hochleitner, R. & Schröcke, H. (1985): Heterogene Gleichgewichte in der Wolframitgruppe. Tschermaks Min. Petr. Mitt. 34, S. 35 – 47.

3. Hochleitner, R. u. Schröcke, H.: Ternäre Verbindungen in den Systemen Mn-Ta-O und Fe-Ta-O und die Entstehung von Columbiten aus der Gasphase. Freiberger Forschungshefte: C;451: Geowissenschaften, Lagerstättenlehre.p 88-113. Leipzig 1994.

4. Hochleitner, R. u. Karl Ludwig Weiner (1995): Die Aufklärung der Steinsalzstruktur – ein Kapitel Wissenschaftsgeschichte. Veröffentlichungen zur Bayerischen Geschichte und Kultur 29/95. Haus der Bayerischen Geschichte Augsburg

5. Schmidbauer, E.; Kunzmann, Th.; Fehr, K.T. & Hochleitner, R. (1996): Electrical conductivity and 57Fe Mössbauer spectroscopy of an Fe-rich amphibole, arfvedsonite. Phys. Chem. Mineral.,23, 99 – 106

6. Hochleitner, R., v. Philipsborn, H., K.L. Weiner (1996): Minerale – Bestimmen nach äußeren Kennzeichen. 1996, Schweizerbart`sche Verlagshandlung Stuttgart. 390 S.

7. Hochleitner, R. (1998): Paul Groth and the development of mineralogical collections. Proceedings of the International Symposium on the History of Mineralogy, Petrology and Geochemistry, Munich, March 8-9, 1996. Herausgegeben v. Bernhard Fritscher und Fergus Henderson. Algorismus, Heft 23, S.259-267, München, 1998.

8. Hochleitner, R.(2000): Natural and synthetic CSH phases – a comparison. In Rammelmair, D.; Mederer, J.; Oberthür, Th.; Heimann, R.B. & Pentinghaus, H. (eds.): Applied Mineralogy in Research, Economy, technology, Ecology and Culture. A.A. Balkema, Rotterdam, 799-801

9. Hochleitner, R.(2000): Rittmannit – Erstnachweis des Minerals der Jahnsit-Whiteit-Gruppe aus dem Pegmatit vom Hühnerkobel im Bayerischen Wald. Münchner Geologische Hefte, A 28, S. 29 – 33, München 2000.

10. Schmidbauer, E.; Kunzmann, Th.; Fehr, K.T. & Hochleitner, R. (2000): Electrical resistivity and 57Fe Mössbauer spectra of Fe-bearing calcic amphiboles. Phys.Chem. Min., 27, 347-356

11. Hochleitner, R., Heinlein, D. (2003): Neuschwanstein, der Meteorit aus den Alpen. Patrimonia 267: 7-22.

12. R. Hochleitner, K.T. Fehr, G. Simon, J. Pohl, E. Schmidbauer (2004): Mineralogy and 57Fe Mössbauer spectroscopy of opaque phases of the Neuschwanstein EL6 chondrite. Meteoritics and Planetary Sciences 39, Nr. 11, 1643-1648.

13. Fehr, K.T., Hochleitner, R., Hölzl, S., Geiss, E., Pohl, J., Faßbinder, J. (2004): Ferrosilizium-Pseudometeorite aus dem Raum Burghausen, Bayern. Der Aufschluß 55, S. 297-303

14. Hochleitner, R., Tarcea, N., Simon, G., Kiefer, W. und Popp, J. (2004): Micro-Raman spectroscopy: a valuable tool for the investigation of extraterrestrial material. Journal of Raman spectroscopy, 35, 515-518

15. Hochleitner, R., Simon, G., Kunkel, A. (2004): Der Bayerische Meteorit Neuschwanstein II. aviso.

16. Fehr, K.T.; Schneider, J.; Hochleitner, R. & Schmidbauer, E. (2005): Electrical conductivity, thermopower, electron microprobe analysis, x-ray diffraction and 57Fe Mössbauer spectroscopy of Mn ilvaite. Part 1: Compositional, structural and Mössbauer data. Physics and Chemistry of Minerals Vol 32, nr. 5-6, p 388-399

17. Schmidbauer, E. ; Fehr, K.T.; Hochleitner, R. & Schneider, J. (2005): Electrical conductivity, thermopower, electron microprobe analysis, x-ray diffraction and 57Fe Mössbauer spectroscopy of Mn ilvaite. Part 2: Electrical conductivity and thermopower. Physics and Chemistry of Minerals Vol 32, nr. 5-6, p 400-411

18. Fehr, K.T., Pohl, J., Mayer, W., Hochleitner, R., Fassbinder, J., Geiss, E., Kerscher, H. (2005): A meteorite impact crater field in Eastern Bavaria? A preliminary report. Meteoritics and Planetary Sciences 40, Nr. 2, 187-194

19. Rochette, P., Gattacceca, J., Chevrier, V., Hoffmann, V., Lorand, J.P., Funaki, M., Hochleitner, R. (2005): Matching Martian crustal magnetization and meteorite magnetic properties. Meteoritics and Planetary Sciences 40, Nr. 4, 529-540

20.Hochleitner, R., Fehr, K.T. (2005): Isokite from Senhora de Assunção, Portugal: new Find and new data. Neues Jahrbuch für Mineralogie, Abhandlungen, Vol 182/1, 103-106

21. Redhammer, G.J., Roth, G., Tippelt, G., Bernroider, M., Lottermoser, W., Amthauer, G., Hochleitner, R. (2006): Manganoan rockbridgeite: structure analysis and 57 Mössbauer spectroscopy. Acta Cryst. C62, i24-i28

22.Hochleitner, (2006): Heimische Orchideen. 48 Seiten, 150 Abbildungen. Herausgegeben vom Museum Mensch und Natur München-Nymphenburg.

23. Fehr, K.T., Hochleitner, R., Schmidbauer E., Schneider J. (2007): Mineralogy, mössbauer spectra and electrical conductivity of triphylite. Phys Chem Minerals 34: 485–494

24. Nicolae Tarcea , Michaela Harz, Petra Rösch, Torsten Frosch, Michael Schmitt, Hans Thiele, R. Hochleitner, Jürgen Popp (2007): UV Raman spectroscopy – A technique for biological and mineralogical in situ planetary studies. Spectrochimica Acta Part A 68, 1029–1035.

25. N. Tarcea , T. Frosch, P. Rösch, M. Hilchenbach, T. Stuffler, S. Hofer, H. Thiele, R. Hochleitner, J. Popp (2007): Raman Spectroscopy – A powerful Tool for in situ Planetary Science. Space Sci. Rev. DOI 10.1007/s11214-007-9279-y.

26. Gilg, H.A., Boni, M., Hochleitner, R., Struck, U. (2008): Stable isotope geochemistry of carbonate minerals in supergene oxidation zones of Zn-Pb deposits. In press: Ore Geology Reviews, DOI 10.1016/j.oregeorev.2007.02.005.

27. S. Schneider, R. Hochleitner, R. Janssen (2008): A new bivalved gastropod, Candinia lakoniae n.sp. (Sacoglossa, Juliidae) from the Upper Pliocene of Greece. N. Jb. Geol. Paläont. Abh. vol 247/1, p. 79-91

28. Bernstein, S., Fehr, K.T., Hochleitner, R. (2009): Crystal chemistry of Xonotlite Ca6Si6O17(OH)2. Part I: Determination of polytypes using X-Ray Powder Diffraction (XRPD). N. Jahrbuch Miner. Abh. 186/2, 153-162.

29. Fehr, K.T., Hochleitner, R., Laumann, A., Schmidbauer, E., Schneider, J. (2009): Mineralogy, Mössbauer spectroscopy and electrical conductivity of heterosite (Fe3+, Mn3+)PO4. Phys. Chem. Minerals. DOI 10.1007/s00269-009-0322-2

30. Casjen Merkel, Julia Deuschle, Erika Griesshaber, Susan Enders, Erwin Steinhauser, Rupert Hochleitner, Uwe Brand, Wolfgang W. Schmahl (2009): Mechanical properties of modern calcite- (Mergerlia truncata) and phosphate-shelled brachiopods (Discradisca stella and Lingula anatina) determined by nanoindentation. Journal of Structural Biology 168, 396–408

31. Hochleitner R., Fehr, K.T. (2010): The Keckite problem and its bearing on the crystal chemistry of the jahnsite group: Mössbauer and electron-microprobe studies. Can. Miner. Vol. 84, No. 6, 1445-1453

32. Gilder, S. A., R. Egli, R. Hochleitner, S. C. Roud, M. W. R. Volk, M. Le Goff, and M. de Wit (2011), Anatomy of a pressure-induced, ferromagnetic-to-paramagnetic transition in pyrrhotite: Implications for the formation pressure of diamonds, J. Geophys. Res., 116, B10101, doi:10.1029/2011JB008292.

33. Hoffmann, V.H., Hochleitner, R., Torii, M., Funaki, M., Mikouchi, T., Kaliwoda, M., Jenniskens, P., Shaddad, M. (2011): Magnetism and mineralogy of Almahata Sitta polymict ureilite (= asteroid 2008 TC3): Implications for the ureilite parent body magnetic field: Meteoritics and Planetary Sciences. DOI: 10.1111/j.1945-5100.2011.01248.x

34. Fehr, K.T., Hochleitner, R., Schmidbauer, E. (2012): Electrical properties of rutile-type FeTiMO₆ (M=Ta,Nb). J. Electroceram. DOI: 10.1007/s10832-012-9765-9

35. Fehr, K.T., Hochleitner, R., Schmidbauer, E. (2013): Electrical properties of rutile-type relaxor ferroelectric-like Fe_0.9W_0.05TiMO₆ (M=Ta,Nb). J. Electroceram. DOI: 10.1007/s10832-013-9783-2

36. Fehr, K.T., Günther, A., Hochleitner, R., Schmidbauer, E. (2014): Electrical properties and Mössbauerspectra of rutile-type In(Al)0.025Nb0.025Ti0.9502 ceramics J. Electroceram. 33, 163-171.

37. Fehr, K.T., Günther, A., Hochleitner, R., Schmidbauer, E. (2014): Electrical properties and Mössbauerspectra of rutile-type Fe_1-xMn_xTiTaO₆ (0<=x< =0.3) ceramics. J. Electroceram. 32, 205-214.

38. Fehr, K.T., Günther, A., Hochleitner, R., Schmidbauer, E. (2014): Electrical properties and Mössbauerspectra of rutile-type Fe_x/2Ta(Nb)_x/2Ti_1-xO₂ (x=0.05, 0.1) ceramics. J. Electroceram. DOI 10.1007/s10832-014-9965-6

39. Fehr, K.T., Hochleitner, R., Schmidbauer, E. (2013): Electrical properties of rutile-type relaxor ferroelectric-like Fe_0.9W_0.1TiMO₆ (M=Ta,Nb). J Electroceram 30:191–205

40. Fehr, K.T., Günther, A., Hochleitner, R., Schmidbauer, E. (2015): Electrical properties of rutile-type relaxor ferroelectric-like Fe_0.9W_0.1TiMO₆ (M=Ta,Nb).Journal of Electroceramics. DOI 10.1007/s10832-014-9979-0.

41. Hochleitner, R., Fehr K.T., Kaliwoda, M., Günther, A., Rewitzer, C., Schmahl, W.W., Park, Sohyun (2015): Hydroniumpharmacoalumite, (H3O)Al4[(OH)4(AsO4)3] · 4-5 H2O, a new mineral of the pharmacosiderite supergroup from Rodalquilar, Spain. N.Jb. Miner. Abh. DOI 10.1127/njma/2015/0278.

42. Mikouchi, T., Komatsu, M., Hagiya, K., Ohsumi, K., Zolensky, E.M., Hoffmann, V., Martinez, J., Hochleitner, R., Kaliwoda, M., Terada, Y., Yagi, N., Takata, M., Satake, W., Aoyagi, Y., Takenouchi, A., Karouji Y., Uesugi, M., Yada, T. (2014) Mineralogy and crystallography of some Itokawa particles returned by the Hayabusa asteroidal sample return mission. (2014). Mineralogy and crystallography of some Itokawa particles returned by the Hayabusa asteroidal sample return mission. Earth, Planets and Space, 66, 82.

43. Hochleitner R (2014) Karl Thomas Fehr 1954 – 2014. Neues Jahrbuch für Mineralogie – Abhandlungen 06/2014, 191(3).

44. Saka S, Uysal I, Akmaz RM, Kaliwoda M, Hochleitner R (2014) The effects of partial melting, melt–mantle interaction and fractionation on ophiolite generation: Constraints from the late Cretaceous Pozantı-Karsantı ophiolite, southern Turkey. Lithos 08/2014.

45. Park SH, · Mihailova B, · Pedersen B, · Paulmann C,· Behal D, · Gattermann U, Hochleitner R (2015) A new polar symmetry of huebnerite (MnWO4) with ferrodistortive domains. Journal of Magnetism and Magnetic Materials 394 · November 2015

46. Müller D, · Hochleitner R, · Fehr KT (2016) Raman spectroscopic investigations of natural jennite from Maroldsweisach, Bavaria, Germany. Journal of Raman Spectroscopy 47(5):602-606 · May 2016.

47. Rewitzer, Ch., Hochleitner R., Fehr, K.T., Martin Carlos Utrera (2016): Karibibite, Schneiderhöhnite, tooeleite and other uncommon secondary minerals in the Nuestra Senora de las Alcantarillas mine, Belalcazar, Cordoba, Spain.

48. Günther, A., Hochleitner, R., Lohringer, H., Schmidbauer, E., Schöttler-Himmel, A., Volk, M. (2016): Effect of oxygen partial pressure during preparation of rutile-type FeNbTiO6 on electrical and dielectric properties, thermopower and Mössbauer spectra. Journal of Physics and Chemistry of Solids 104.

49. Günther, A., Hochleitner, R., Lohringer, H., Schmidbauer, E., Schöttler-Himmel, A., Volk, M. (2017): Low-temperature electrical and dielectric properties and Mössbauer spectra of rutile-type FeNbTiO 6 , prepared in oxidizing and reducing conditions. Journal of Physics and Chemistry of Solids 111.

50. Bischoff, A., Barrat, J.A., Bauer, K., Hochleitner, R. (2017): The Stubenberg meteorite-An LL6 chondrite fragmental breccia recovered soon after precise prediction of the strewn field. Meteoritics & Planetary Science 52(8)

51. Zemann, E.O., Moudrakovski, I., Hoch, C., Hochleitner, R., Schmahl, W.W., Karaghiosoff, K., Bräuniger, T. (2017): Determination of the 31P and 207Pb Chemical Shift Tensors in Pyromorphite, Pb5(PO4)3Cl, by Single-Crystal NMR Measurements and DFT Calculations Zeitschrift für anorganische und allgemeine Chemie 643(21)

52. Bartoschewitz, R., Appel, P., Barrat, J.A., Hochleitner, R., et al. (2017): The Braunschweig meteorite − a recent L6 chondrite fall in Germany. Chemie der Erde – Geochemistry 77(1):207-224

53. Zemann, E.O., Hoch, C., Hochleitner, R., Bräuniger, T. (2017): NMR interaction tensors of 51 V and 207 Pb in vanadinite, Pb 5 (VO 4 ) 3 Cl, determined from DFT calculations and single-crystal NMR measurements, using only one general rotation axis. Solid State Nuclear Magnetic Resonance 89

54. Grey, I.E., Mumme, W.G., Hochleitner, R. (2018): Trimeric As 3+ 3 O 6 clusters in walentaite: crystal structure and revised formula. European Journal of Mineralogy 31(1)

55. Aksenov, S.M., Chukanov, N.V., Göttlicher, J., Hochleitner, R., Zarubina, E.S., Rastsvetaeva, R.K. (2018): Mn-bearing eleonorite from Hagendorf South pegmatite, Germany: Crystal structure and crystal-chemical relationships with other beraunite-type phosphates. Zeitschrift für Kristallographie 233(7)

56. Günther, A., Hochleitner, R., Schmidbauer, E., Schöttler-Himmel, A., Volk, M. (2018): Influence of Jahn-Teller active Mn3+ ions on electrical and dielectric properties, thermopower and Mössbauer spectra of rutile-type Fe1-xMnxNbTiO6 (0 ≤ x ≤ 0.9) Journal of Physics and Chemistry of Solids 124

57. Ünsalan, O., Jenniskens, P., Hochleitner R., et al. (2019): The Sariçiçek howardite fall in Turkey: Source crater of HED meteorites on Vesta and impact risk of Vestoids. Meteoritics and Planetary Science

58. Zemann, E.O., Steinadler, J., Hochleitner, R., Bräuniger, T. (2019): Determination of the Full 207Pb Chemical Shift Tensor of Anglesite, PbSO4, and Correlation of the Isotropic Shift to Lead–Oxygen Distance in Natural Minerals. Crystals 9(1): 43

59. Bialo, I., Kozlowski, A., Wack, M., Wlodek, A., Gondek, L., Kakol, Z., Hochleitner, R., Zwyczak, A., Chlan, V., Gilder, S. (2019): The influence of strain on the Verwey transition as a function of dopant concentration: towards a geobarometer for magnetite-bearing rocks. Geophysical Journal International 219(1):148-158

60. Hoke, N., Rott, A., Johler, S., Reul, A., Beck, A., Günther, A., Hochleitner R., Kaliwoda, M., Harbeck, M. (2019): How bone degradation, age, and collagen extraction methods affect stable isotope analysis. Archaeological and Anthropological Sciences 11(4).

61. Zemann, E.O., Steinadler, J., Hochleitner, R., Bräuniger, T. (2019): Single-crystal 207 Pb-NMR of Wulfenite, PbMoO4, aided by simultaneous measurement of Phosgenite, Pb2Cl2CO3. Solid State Nuclear Magnetic Resonance 103(1):101620

62. Grey, I., Hochleitner, R., Rewitzer, C., Riboldi-Tunnicliffe, A., Kampf, A.R., MacRae, C.M., Mumme, W.G., Kaliwoda, M., Friis, H., Utrera Martin C. (2020): The walentaite group and the description of a new member, alcantarillaite, from the Alcantarilla mine, Belalcazar, Cordoba, Andalusia, Spain. Min. Mag. 84(3): 412-419.

63. Schlüter, J., Malcherek, T., Mihailova, B., Rewitzer, C., Hochleitner, R., Müller, D., Günther, A. (2020): Fehrite, MgCu4(SO4)2(OH)6 · 6H2O, the magnesium analogue of ktenasite from the Casualidad mine near Baños de Alhamilla, Almeria, Spain. N. Jb. Miner. Abh. 197(1).

64. Zemann, E.O., Steinadler, J., Hochleitner, R., Bräuniger, T. (2021): Characterisation of contact twinning for Cerussite by single-crystal NMR spectroscopy. Phys. Chem. Miner. 48(11)

65. Zemann, E.O., Hochleitner, R., Schmahl, W.W., Karaghiosoff, K., Bräuniger, T. (2021): Relationship between 207Pb NMR chemical shift and the morphology and crystal structure for the apatites Pb5(AO4)3Cl, vanadinite (A = V), pyromorphite (A = P), and mimetite (A = As). American Mineralogist 106(4): 541-548.

66. Kaliwoda, M., Giordano, D., Krüger, M., Uysal, I., Akmaz, R.M., Hofmann, V., Hochleitner, R., Schmahl, W.W. (2021) Raman Spectroscopy as a Tool for the Quantitative Estimation of Chromium Aluminum Oxide Content in Chromite. Spectroscopy 36 (2).

67. Keck, E., Grey, I.E., MacRae, C.M., Boer, S., Hochleitner, R., Rewitzer, C., Mumme, W.G., Glenn, A.M., Davidson, C. (2022): New secondary phosphate mineral occurrences and their crystal chemistry, at the Hagendorf Süd pegmatite, Bavaria. Eur. J. Min. 34 (5): 439-450.

68. Nützel, A., Nose, M., Hautmann, M., Hochleitner, R. (2022): Latest Triassic (Sevatian–Rhaetian) reef carbonates from the Northern Calcareous Alps (Austria), their mollusc dwellers, and their fate at the end‑Triassic extinction event. Paläontologische Zeitschrift. DOI 10.1007/s12542-022-00631-9

69. Hochleitner, R., Rewitzer, C., Grey, I.E., Mumme, E.G., MacRae, C.D., Kampf, A.R., Keck, E., Gable, R.W., Glenn, A.M. (2023): Whiteite-(CaMnFe), a new jahnsite-group mineral from the Hagendorf-Süd pegmatite, Oberpfalz, Bavaria. European Journal of Mineralogy 35(1):95-103. DOI: 10.5194/ejm-35-95-2023

70. Grey, I.E., Hochleitner, R., Rewitzer, C., Kampf, A.R. Mumme, W., Gable, R.W., MacRae, C.M., Keck, E., Davidson, C. (2023): Pleysteinite, [(H2O)0.5K0.5]2Mn2Al3(PO4)4F2(H2O)10·4H2O, the Al-analogue of benyacarite, from the Hagendorf-Süd pegmatite, Oberpfalz, Bavaria, Germany. European Journal of Mineralogy 35(2):189-197. DOI: 10.5194/ejm-35-189-2023

71. Grey, I.E., Hochleitner, R., Kampf, A.R. Mumme, W., Rewitzer, C., Boer, S., McRae, C.M., Cashin, J. (2023): Manganrockbridgeite, Mn 2+ 2 Fe 3+ 3 (PO 4 ) 3 (OH) 4 (H 2 O), a new member of the rockbridgeite group, from the Hagendorf-Süd pegmatite, Oberpfalz, Bavaria. European Journal of Mineralogy 35(2):295-304. DOI: 10.5194/ejm-35-295-2023

72. Park, S.-H., Paulmann, C., Hoelzel, M., Hochleitner, R., (2023): Mechanism for the Combined Li–Na Ionic Conductivity in Sugilite (Fe2Na2K[Li3Si12O30])-Type Compounds. Minerals 13(5):620 DOI: 10.3390/min13050620

73. Peters, S., Semenov, D.A., Hochleitner, R., et al. (2023): Synthesis of prebiotic organics from CO₂ by catalysis with meteoritic and volcanic particles. Scientific Reports 13, 6843

74. Rewitzer, C., Hochleitner, R., Grey, I.E., Kampf, A.R., Boer, S., MacRae, C.M. (2023): Regerite, KFe₆(PO₄)₄(OH)₇(H₂O)₆  ⋅  4H₂O, the first new mineral species from the Kreuzberg pegmatite, Pleystein, Oberpfalz, Bavaria, Germany. European Journal of Mineralogy, 35, 805–812

75. Grey, I.E., Hochleitner, R., Kampf, A.R., Boer, S., MacRae, C.M., Mumme, W.G., Keck, E. (2023): Rewitzerite, K(H2O)Mn2(Al2Ti)(PO4)4[O(OH)](H2O)10⋅4H2O, a new monoclinic paulkerrite-group mineral, from the Hagendorf-Süd pegmatite, Oberpfalz, Bavaria, Germany. Mineralogical Magazine, 1-29 doi:10.1180/mgm.2023.55

76. Grey, I.E., Rewitzer, C., Hochleitner, R., Kampf, A.R., Boer, S., Mumme, W.G., Wilson, N.C. (2024): Macraeite, [(H₂O)K]Mn₂(Fe₂Ti)(PO₄)₄[O(OH)](H₂O)₁₀·4H₂O, a new monoclinic paulkerrite-group mineral from the Cubos-Mesquitela-Mangualde pegmatite, Portugal. European Journal of Mineralogy, 36, 267–278