Publications & Conferences

Publications 2019

[1] V Cerantola, M Wilke, I Kantor, L Ismailova, I Kupenko, C McCammon, S Pascarelli and L Dubrovinsky. Experimental investigation of FeCO3 (siderite) stability in Earth's lower mantle using XANES spectroscopy. American Mineralogist, 104(8): 1083_1091, 8 2019. doi: 10.2138/am-2019-6428.

[2] N S Martirosyan, A Shatskiy, A D Chanyshev, K D Litasov, I V Podborodnikov and T Yoshino. Effect of water on the magnesite_iron interaction, with implications for the fate of carbonates in the deep mantle. Lithos, 326_327:435_445, 2019. doi:10.1016/j.lithos.2019.01.004.

[3] NS Martirosyan, K Litasov, S Lobanov, A F Goncharov, A Shatskiy, H Ohfuji, and V Prakapenka. The Mg-carbonate_Fe interaction: Implication for the fate of subducted carbonates and formation of diamond in the lower mantle. Geoscience Frontiers, 10(4):1449_1458, 2019. doi: 10.1016/j.gsf.2018.10.003.

[4] D Spahr, L Bayarjargal, V Vinograd, R Luchitskaia, V Milman, and B Winkler. A new BaCa(CO3)2 polymorph. Acta Crystallographica Section B, 75(3), 2019. doi: 10.1107/S2052520619003238.

[5] V Stagno, V Cerantola, S Aulbach, S Lobanov, C McCammon, and M Merlini. Carbon-Bearing Phases throughout Earth's Interior: Evolution through Space and Time, pages 66_88. 10 2019. ISBN 9781108477499. doi: 10.1017/9781108677950.004.

[6] M Stekiel, A Girard, T Nguyen-Thanh, A Bosak, V Milman, and B Winkler. Phonondriven phase transitions in calcite, dolomite, and magnesite. Physical Review B, 99, doi:10.1103.

[7] C Weis, G Spiekermann, C Sternemann, M Harder, G Vankó, V Cerantola, Sahle CJ, Y Forov, R Sakrowski, I Kupenko, S Petitgirard, H Yava³, C Bressler, W Gawelda, M Tolan, and M Wilke. Combining X-ray K_1;3, valence-to-core, and X-ray Raman spectroscopy for studying Earth materials at high pressure and temperature: the case of siderite. Journal of Analytic Atomic Spectrometry, 34:384_393, 2019. doi:10.1039/C8JA00247A


Conference Contributions 2019

C. Albers. A portable setup to establish extreme conditions for the study of tetracarbonates., YES Congress 2019, Talk at CarboPaT session

C. Albers. Decomposition of siderite and formation of tetracarbonates at conditions of the lower mantle, EHPRG Prague 2019, Poster Mo-P-29

N. Biedermann.  Reactions between CaCO3 and bridgemanite at mantle conditions and the role of carbonates as possible trace element carriers into the Earth's deep interior, EHPRG Prague 2019, Poster Mo-P-30

J. Binck. High pressure, high temperature phase stabilities of iron-poor dolomite and a new structure of dolomite V., YES Congress 2019, Talk at CarboPaT session

S. Dominijanni. Probing redox conditions in diamond anvil cell experiments., YES Congress 2019, Talk at CarboPaT session

I. Koemets. Carbon's role in crystal chemistry of the Earth lower mantle minerals, YES Congress 2019, Talk at CarboPaT session

I. Koemets. Structure, Crystal Chemistry, and Compressibility of Iron-Rich Silicate Perovskite at Pressures up to 95 GPa. EMC32 2019, Vienna, Poster MS15-P06.

L. Libon. Reaction and elemental redistribution processes between magnesite and mantle phases at transition zone to lower mantle conditions., YES Congress 2019, Talk at CarboPaT session

S. Lobanov. DCO, Talk at Deep Carbon 2019 Washington, D.C., within Lightning Talks II: "Crossover to diamond-like carbonates in the lower mantle"

N. Martirosyan. Experimental modeling of the CaCO3–peridotite–Fe system and its role in the formation of Ca-rich inclusions in diamonds., YES Congress 2019, Talk at CarboPaT session

L. Pennacchioni. Elasticity and structure evolution of carbonates at upper mantle conditions., YES Congress 2019, Talk at CarboPaT session

B. Winkler. DCO, Talk at Deep Carbon 2019 Washington, D.C., within Session II: New Programs Emerging from DCO: The DFG Research Unit 2125 “Structures, properties and reactions of carbonates at high pressures and temperatures, CarboPaT"