Your search keyword '"Decremps, F."' showing total 2 results

1. Picosecond acoustics method for measuring the thermodynamical properties of solids and liquids at high pressure and high temperature.

Author

Decremps, F., Gauthier, M., Ayrinhac, S., Bove, L., Belliard, L., Perrin, B., Morand, M., Le Marchand, G., Bergame, F., and Philippe, J.

Subjects

*PICOSECOND pulses, *ULTRASONICS, *NONLINEAR acoustics, *THERMODYNAMICS, *HIGH pressure (Science), *HIGH temperatures

Abstract

Based on the original combination of picosecond acoustics and diamond anvils cell, recent improvements to accurately measure hypersonic sound velocities of liquids and solids under extreme conditions are described. To illustrate the capability of this technique, results are given on the pressure and temperature dependence of acoustic properties for three prototypical cases: polycrystal (iron), single-crystal (silicon) and liquid (mercury) samples. It is shown that such technique also enables the determination of the density as a function of pressure for liquids, of the complete set of elastic constants for single crystals, and of the melting curve for any kind of material. High pressure ultrafast acoustic spectroscopy technique clearly opens opportunities to measure thermodynamical properties under previously unattainable extreme conditions. Beyond physics, this state-of-the-art experiment would thus be useful in many other fields such as nonlinear acoustics, oceanography, petrology, in of view. A brief description of new developments and future directions of works conclude the article. [ABSTRACT FROM AUTHOR]

Published

2015

2. Structure of crystalline and amorphous Ge probed by X-ray absorption and diffraction techniques.

Author

Cicco, A. Di, Principi, E., Minicucci, M., Panfilis, S. De, Filipponi, A., Decremps, F., Datchi, F., Itié, J.-P., Munsch, P., and Polian, A.

Subjects

GERMANIUM, X-ray spectroscopy, NEUTRON diffraction, HIGH pressure (Science), HIGH temperatures, AMORPHOUS substances

Abstract

Results of experiments dedicated to the study of the structure under high pressure of amorphous Ge (a-Ge) and crystalline Ge (c-Ge) are reported. Energy-dispersive X-ray diffraction measurements of c-Ge have been collected at the DW11A beamline (DCI, LURE) using a heatable diamond anvil cell as pressure device up to 500K. The a-Ge measurements have been performed at the ESRF, using the advanced set-up available at the BM29 beamline, which allows the simultaneous collection of X-ray absorption spectroscopy data and diffraction patterns used to monitor pressure and crystallization of a sample in a Paris-Edinburgh large-volume cell. The new structural data allowed us to obtain a reliable determination of the lattice parameters as a function of pressure and temperature in c-Ge and of the first-neighbor distance distribution in a-Ge. [ABSTRACT FROM AUTHOR]

Published

2004