Renata Wentzcovitch
Materials Simulations in Geophysics
(basb)May 2019 - Dec 2019
High Pressure and High Temperature Properties of Minerals and Rocks
(jqr)Apr 2014 - Apr 2015
2019
Zhuang, J., Wang, H., Zhang, Q., and Wentzcovitch, R. (2019): Thermodynamics properties of ε-iron to 14 Mbar, (in preparation)
Z. Zhang, D.-B. Zhang, T. Sun, and R. M. Wentzcovitch (2019): phq: A Fortran code to compute phonon quasiparticle properties and dispersions, Computer Physics Communications, Elsevier, Vol 243, pp110-120
Gaurav Shukla, Kanchan Sarkar, and Renata M. Wentzcovitch (2019): Thermoelasticity of Iron- and Aluminum-Bearing MgSiO3 Postperovskite, Journal of Geophysical Research: Solid Earth, American Geophysical Union, Vol 124, Num 3, pp2417-2427
2015
Ryan J. Wu, Mehmet Topsakal, Matt C. Robbins, Nazila Haratipour, Jong Seok. Jeong, Renata M. M. Wentzcovich, Steven J. Koester, and K. Andre Mkhoyan (2015): Measuring the Atomic and Electronic Structure of Black Phosphorus with STEM, Microscopy and Microanalysis, Cambridge University Press, Vol 21, Num S3, pp109-110
Gaurav Shukla, Zhongqing Wu, Han Hsu, Andrea Floris, Matteo Cococcioni, and Renata M. Wentzcovitch (2015): Thermoelasticity of Fe2+ -Bearing Bridgmanite, Geophysical Research Letters, Wiley-Blackwell, Vol 42, Num 6, pp1741-1749
Michel L. Marcondes and Renata M. Wentzcovitch (2015): Hybrid Ab-Initio/experimental High Temperature Equations of State: Application to the NaCl Pressure Scale, Journal of Applied Physics, AIP Publishing, Vol 117, Num 21, pp215902
Ryan J. Wu, Mehmet Topsakal, Tony Low, Matthew C. Robbins, Nazila Haratipour, Jong Seok Jeong, Renata M. Wentzcovitch, Steven J. Koester, and K. Andre Mkhoyan (2015): Atomic and Electronic Structure of Exfoliated Black Phosphorus, Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films, American Vacuum Society, Vol 33, Num 6, pp060604
2019
Renata Wentzcovitch, Dong–Bo Zhang, Kei Hirose (2019): Materials Simulations in Geophysics, 2019 Blue Waters Annual Report, pp110-111
2015
Renata Wentzcovitch (2015): Computational Mineral Physics, 2015 Blue Waters Annual Report, pp58-60
U of I, Great Lakes Consortium award Blue Waters resources to 18 research teams
Apr 10, 2014
Eighteen research teams from a wide range of disciplines have been awarded computational and data resources on the sustained-petascale Blue Waters supercomputer at the National Center for Supercomputing Applications (NCSA) at the University of Illinois at Urbana-Champaign. Blue Waters is one of the world’s most powerful supercomputers, capable of performing quadrillions of calculations every second and working with quadrillions of bytes of data. Its massive scale and balanced architecture enable scientists and engineers to tackle research challenges that could not be addressed with other computing systems.
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