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Stanislav V. Sinogeikin
Researcher at Carnegie Institution for Science
Publications - 145
Citations - 6071
Stanislav V. Sinogeikin is an academic researcher from Carnegie Institution for Science. The author has contributed to research in topics: Elastic modulus & Brillouin Spectroscopy. The author has an hindex of 45, co-authored 143 publications receiving 5320 citations. Previous affiliations of Stanislav V. Sinogeikin include University of Illinois at Urbana–Champaign & Argonne National Laboratory.
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Journal ArticleDOI
Single‐crystal elasticity and sound velocities of (Mg0.94Fe0.06)O ferropericlase to 20 GPa
Jennifer M. Jackson,Jennifer M. Jackson,Stanislav V. Sinogeikin,Stanislav V. Sinogeikin,Steven D. Jacobsen,Steven D. Jacobsen,Hans J. Reichmann,Stephen J. Mackwell,Jay D. Bass +8 more
TL;DR: In this paper, the authors measured the single-crystal elastic properties of high-spin ferropericlase using Brillouin spectroscopy on a sample compressed to 20 GPa using methanol-ethanol-water as a pressure-transmitting medium.
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Elastic properties of hydrous ringwoodite at high-pressure conditions
TL;DR: In this article, sound velocities and single-crystal elastic moduli of ringwoodite were measured by Brillouin spectroscopy at high pressures to 23.4 GPa, spanning the pressure range in Earth's transition zone.
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Phase Transition and Compressibility in Silicon Nanowires
Yuejian Wang,Jianzhong Zhang,Ji Wu,Jeffrey L. Coffer,Zhijun Lin,Stanislav V. Sinogeikin,Wenge Yang,Yusheng Zhao +7 more
TL;DR: The results revealed that the onset pressure for the Si I-II transformation in Si NWs is approximately 2.0 GPa lower than previously determined values for bulk Si, a trend that is consistent with the analysis of misfit in strain energy.
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General 2.5 power law of metallic glasses
Qiaoshi Zeng,Yu Lin,Yijin Liu,Zhidan Zeng,Zhidan Zeng,Crystal Y. Shi,Bo Zhang,Hongbo Lou,Stanislav V. Sinogeikin,Yoshio Kono,Curtis Kenney-Benson,Changyong Park,Wenge Yang,Weihua Wang,Hongwei Sheng,Ho-kwang Mao,Wendy L. Mao,Wendy L. Mao +17 more
TL;DR: A general rule correlating the bulk properties [volume (V)] with atomic structure information (principal diffraction peak position q1) for metallic glasses, i.e., V∝(1/q1)2.5 is established, which implies that the 2.5 power law may be a general rule defining the structure of MGs.
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Controlled formation of metastable germanium polymorphs
Bianca Haberl,Malcolm Guthrie,Brad D. Malone,Jesse S. Smith,Stanislav V. Sinogeikin,Marvin L. Cohen,Marvin L. Cohen,James Williams,Guoyin Shen,Jodie Bradby +9 more
TL;DR: Bianca Haberl, Malcolm Guthrie, Brad D. Malone, Jesse S. Smith, Stanislav V. Sinogeikin, Marvin L. Cohen,5,6 James S. Williams,1 Guoyin Shen,4 and Jodie E. Bradby as mentioned in this paper.