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Session Overview |
Session | ||
MS-83: High pressure crystallography
Merged sessions | ||
Session Abstract | ||
The emergence of dynamic compression techniques coupled with time-resolved characterization techniques at 3rd and 4th generation synchrotron sources has greatly enhanced our capabilities to study the processes in materials submitted to high-strain rates and high temperatures. This micro symposium will highlight the recent scientific breakthroughs in the investigation of atomic structure and atomic scale processes in the dynamic compression regime. | ||
Introduction | ||
Presentations | ||
2:45pm - 2:50pm
ID: 1814 / MS-83: 1 Introduction Oral/poster Introduction to session 2:50pm - 3:20pm
ID: 1683 / MS-83: 2 All topics Invited lecture to session MS: High pressure crystallography, Texture, strain and structure in metals and ceramics Keywords: high pressure, crystallography of materials Experimental measures of the orientation dependence of the B1-B2 transformation in shock-compressed MgO Johns Hopkins University, Baltimore, United States of America 3:20pm - 3:50pm
ID: 1370 / MS-83: 3 Physics and fundamental crystallography Invited lecture to session MS: High pressure crystallography Keywords: Dynamic compression, diamond anvil cell, X-ray imaging Simultaneous imaging and diffraction of phase transitions at intermediate compression rates 1DESY, Notkestrasse 85, 2260 Hamburg, Germany; 2Lawrence Livermore National Laboratory, 7000 East Avenue, L-041 Livermore, CA 94550, USA 3:50pm - 4:10pm
ID: 1119 / MS-83: 4 Physics and fundamental crystallography Oral/poster MS: High pressure crystallography Keywords: High, Pressure, Ice, Planetary, Interiors Phase Changes in Dynamically Compressed Water 1University of Rostock, Rostock, Germany; 2Helmholtz-Zentrum Dresden-Rossendorf, Dresden, Germany; 3Laboratoire LULI, Ecole Polytechnique, Palaiseau, France; 4SLAC National Accelerator Laboratory, Menlo Park, USA; 5University of Oslo, Oslo, Norwa 4:10pm - 4:30pm
ID: 990 / MS-83: 5 Physics and fundamental crystallography Oral/poster MS: High pressure crystallography Keywords: Dynamic-compression, Ultrafast-diffraction, high-pressure, high-temperature Investigations of the high-pressure, high-temperature behaviour of Au using laser-driven dynamic compression Lawrence Livermore National Laboratory, Livermore, United States of America 4:30pm - 4:50pm
ID: 395 / MS-83: 6 Bursary application Oral/poster MS: High pressure crystallography Keywords: non-hydrostatic stress; x-ray diffraction; host-inclusion system; structure Mineral inclusions as models to characterize deviatoric stress in single crystals 1University of Pavia, Pavia, Italy; 2Istituto di Geoscienze e Georisorse, Padua, Italy; 3Elettra Sincrotrone, Basovizza, Trieste, Italy Bibliography
Luca Bindi Marta Morana "Twinning, Superstructure and Chemical Ordering in Spryite, Ag8(As3+0.50As5+0.50)S6, at Ultra-Low Temperature: An X-Ray Single-Crystal Study" Minerals 11, no. 3 (2021) 286. Ambra Pisanu, Mauro Coduri, Marta Morana, Yasemin O. Ciftci, Aurora Rizzo, Andrea Listorti, Mattia Gaboardi, Luca Bindi, Valentine I. E. Queloz, Chiara Milanese,Giulia Grancini, and Lorenzo Malavasi. “Exploring the role of halide mixing in lead-free BZA2SnX4 two dimensional hybrid perovskites”. In: Journal of Materials Chemistry A8.4 (2020), pp. 1875–1886. Marta Morana, Boriana Mihailova, Ross J. Angel, and Matteo Alvaro. “Quartz metastability at high pressure: what new can we learn from polarized Raman spec- troscopy?” In: Physics and Chemistry of Minerals 47.8 (2020), p. 34. Matteo Alvaro, Mattia L. Mazzucchelli, Ross J. Angel, Mara Murri, Nicola Campomenosi, Marco Scambelluri, Fabrizio Nestola, Andrey V. Korsakov, Anatoly A. Tomilenko, Federica Marone, and Marta Morana. “Fossil subduction recorded by quartz from the coesite stability field”. In: Geology 48.1 (2020), pp. 24–28. Fabrizio Nestola, Cyrena A. Goodrich, Marta Morana, Anna Barbaro, Ryan S. Jakubek, Oliver Christ, Frank E. Brenker, M. Chiara Domeneghetti, M. Chiara Dalconi, Matteo Alvaro, Anna M. Fioretti, Konstantin D. Litasov, Marc D. Fries, Matteo Leoni, Nicola P. M. Casati, Peter Jenniskens, and Muawia H. Shaddad. “Impact shock origin of diamonds in ureilite meteorites”. In: Proceedings of the National Academy of Sciences 117.41 (2020), pp. 25310–25318. Marta Morana and Luca Bindi. “(Cu1−xAgx)2Te (x ≈ 0.4)), a New Telluride from the Good Hope Mine, Vulcan, Colorado (U.S.A.” In: Minerals 9.3 (2019), p. 194. Mario Santoro, Kamil Dziubek, Demetrio Scelta, Marta Morana, Federico A. Gorelli, Roberto Bini, Michael Hanfland, Jérôme Rouquette, Francesco di Renzo, and Julien Haines. “Dense, Subnano Phase of Clustered O2”. In: The Journal of Physical Chemistry C 123.14 (2019), pp. 9651–9657. Marco Piazzi, Marta Morana, Marco Coïsson, Federica Marone, Marcello Campione, Luca Bindi, Adrian P. Jones, Enzo Ferrara, and Matteo Alvaro. “Multi-analytical characterization of Fe-rich magnetic inclusions in diamonds”. In: Diamond and RelatedMaterials 98 (2019), p. 107489. Luca Bindi, Frank N Keutsch, Marta Morana, and Federica Zaccarini. “Spryite, Ag8(As3+0.5As5+0.5)S6: structure determination and inferred absence of superionic conduction of the first As3+-bearing argyrodite”. In: Physics and Chemistry of Minerals 44.1 (2017), pp. 75–82. 4:50pm - 5:10pm
ID: 187 / MS-83: 7 All topics Oral/poster MS: Phase transitions in complex materials (structure and magnetism), Crystallography using large volume presses and diamond anvil cells, High pressure crystallography Keywords: transition metal oxychloride; high pressure; phase transition; magnetic order; High-pressure low-temperature phase transitions and structural development in quasi-two-dimensional transition metal oxychlorides 1University of Bayreuth, Laboratory of Crystallography, Bayreuth, Germany; 2Carnegie Institution of Washington, Geophysical Laboratory, Washington DC, USA; 3Howard University, Washington DC, USA; 4Photon Sciences, Deutsches Elektronen-Synchrotron (DESY), Hamburg, Germany |