M
Mark L. Rivers
Researcher at University of Chicago
Publications - 265
Citations - 12030
Mark L. Rivers is an academic researcher from University of Chicago. The author has contributed to research in topics: Microprobe & Synchrotron radiation. The author has an hindex of 57, co-authored 259 publications receiving 10933 citations. Previous affiliations of Mark L. Rivers include Massachusetts Institute of Technology & Michigan State University.
Papers
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Journal ArticleDOI
Structure of the Hydrated α-Al2O3 (0001) Surface
Peter J. Eng,Thomas P. Trainor,Gordon E. Brown,Glenn A. Waychunas,Matthew Newville,Stephen R. Sutton,Mark L. Rivers +6 more
TL;DR: The physical and chemical properties of the hydrated α-Al2O3 (0001) surface are important for understanding the reactivity of natural and synthetic aluminum-containing oxides as mentioned in this paper.
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Using X-ray computed tomography in hydrology: systems, resolutions, and limitations
Dorthe Wildenschild,Dorthe Wildenschild,Dorthe Wildenschild,Carlos Manoel Pedro Vaz,Carlos Manoel Pedro Vaz,Mark L. Rivers,Mark L. Rivers,D. Rikard,D. Rikard,B.S.B. Christensen,B.S.B. Christensen +10 more
TL;DR: A combination of advances in experimental techniques and mathematical analysis has made it possible to characterize phase distribution and pore geometry in porous media using non-destructive X-ray computed tomography (CT) as discussed by the authors.
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Melting and crystal structure of iron at high pressures and temperatures
TL;DR: In this article, the e-γ-1 triple point is shown to be 60(±5) GPa and 2800(±200) K at high temperatures and pressures above 60 GPa.
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Advanced flat top laser heating system for high pressure research at GSECARS: application to the melting behavior of germanium
Vitali B. Prakapenka,Atsushi Kubo,A. Kuznetsov,A. Laskin,O. Shkurikhin,Przemyslaw Dera,Mark L. Rivers,Stephen R. Sutton +7 more
TL;DR: In this article, the flat top laser heating (FTLH) technique was used for in-situ high pressure high temperature studies into the physical and chemical properties of materials in the diamond anvil cell (DAC) and minerals at conditions relevant to the Earth's deep interior.
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Diffraction-limited imaging in a scanning transmission x-ray microscope
Chris Jacobsen,S. Williams,Erik H. Anderson,M.T. Browne,C.J. Buckley,Dieter P. Kern,Janos Kirz,Mark L. Rivers,Xiaodong Zhang +8 more
TL;DR: In this paper, a scanning transmission X-ray microscope with a 45 nm outer zone width and a 10% diffraction efficiency Fresnel zone plate as the probe-forming optic is presented.