His primary areas of study are Diffraction, Thermodynamics, Phase, X-ray crystallography and Diamond anvil cell. His study with Diffraction involves better knowledge in Optics. His biological study spans a wide range of topics, including Inner core, Outer core, Core and Eutectic system.
His studies deal with areas such as Orthorhombic crystal system, Condensed matter physics, Superconductivity, Bulk modulus and Crystallography as well as Phase. His Crystallography research is multidisciplinary, incorporating elements of Chemical physics, Supercooling and Lattice constant. He combines subjects such as Xenon, Synchrotron and Argon with his study of X-ray crystallography.
Mohamed Mezouar mainly investigates Diffraction, Crystallography, X-ray crystallography, Analytical chemistry and Thermodynamics. Within one scientific family, Mohamed Mezouar focuses on topics pertaining to Synchrotron radiation under Diffraction, and may sometimes address concerns connected to Beamline. His work on Crystal structure, Powder diffraction, Orthorhombic crystal system and Tetragonal crystal system as part of general Crystallography research is frequently linked to Hydrostatic pressure, bridging the gap between disciplines.
His Crystal structure research is multidisciplinary, incorporating perspectives in Superconductivity and Condensed matter physics. He focuses mostly in the field of Analytical chemistry, narrowing it down to topics relating to Mineralogy and, in certain cases, Mantle. His work on Equation of state, Compressibility and Atmospheric temperature range as part of his general Thermodynamics study is frequently connected to Melting curve analysis, thereby bridging the divide between different branches of science.
His main research concerns Diffraction, Thermodynamics, Phase, Analytical chemistry and Condensed matter physics. His work deals with themes such as Tetragonal crystal system, Phase transition and Synchrotron, which intersect with Diffraction. His study on Equation of state is often connected to Melting curve analysis as part of broader study in Thermodynamics.
The various areas that Mohamed Mezouar examines in his Phase study include Orthorhombic crystal system, Silicon and Monoclinic crystal system. In general Analytical chemistry study, his work on Raman spectroscopy often relates to the realm of Earth, thereby connecting several areas of interest. His Condensed matter physics research incorporates elements of Alloy and Crystal structure.
His primary scientific interests are in Diffraction, Diamond anvil cell, Mineralogy, Phase diagram and Mantle. His research integrates issues of Tetragonal crystal system, Amorphous solid, Crystallization and Analytical chemistry in his study of Diffraction. His Diamond anvil cell research includes themes of Carbon, Temperature measurement and Synchrotron.
His Mineralogy research incorporates themes from Diamond and Fluorine. His research in Phase diagram intersects with topics in Orthorhombic crystal system, Hydrogen, Chemical physics, Raman spectroscopy and Thermodynamics. Mohamed Mezouar interconnects Phase boundary and Phase in the investigation of issues within Thermodynamics.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Equations of state of six metals above 94 GPa
Agnès Dewaele;Paul Loubeyre;Mohamed Mezouar.
Physical Review B (2004)
Synthesis of superhard cubic BC2N
Vladimir L. Solozhenko;Denis Andrault;Guillaume Fiquet;Mohamed Mezouar.
Applied Physics Letters (2001)
Melting of Iron at Earth’s Inner Core Boundary Based on Fast X-ray Diffraction
S. Anzellini;A. Dewaele;M. Mezouar;P. Loubeyre.
Compression curves of transition metals in the Mbar range: Experiments and projector augmented-wave calculations
Agnès Dewaele;Marc Torrent;Paul Loubeyre;Mohamed Mezouar.
Physical Review B (2008)
Quasihydrostatic equation of state of iron above 2 Mbar.
Agnès Dewaele;Paul Loubeyre;Florent Occelli;Mohamed Mezouar.
Physical Review Letters (2006)
Ultimate metastable solubility of boron in diamond: synthesis of superhard diamondlike BC5.
Vladimir L. Solozhenko;Oleksandr O. Kurakevych;Denis Andrault;Yann Le Godec.
Physical Review Letters (2009)
Nature of the first-order phase transition in fluid phosphorus at high temperature and pressure.
G. Monaco;S. Falconi;W. A. Crichton;M. Mezouar.
Physical Review Letters (2003)
Solidus and liquidus profiles of chondritic mantle: Implication for melting of the Earth across its history
Denis Andrault;Nathalie Bolfan-Casanova;Giacomo Lo Nigro;Mohamed Ali Bouhifd.
Earth and Planetary Science Letters (2011)
High-pressure x-ray scattering of oxides with a nanoscale local structure: Application to Na 1 / 2 Bi 1 / 2 TiO 3
Jens Kreisel;Pierre Bouvier;B. Dkhil;Pamela Thomas.
Physical Review B (2003)
High pressure-high temperature equations of state of neon and diamond
Agnès Dewaele;Frédéric Datchi;Paul Loubeyre;Mohamed Mezouar.
Physical Review B (2008)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: