Your search keyword '"Hartley, N. J."' showing total 2 results

1. The complex ion structure of warm dense carbon measured by spectrally resolved x-ray scattering.

Author

Kraus, D., Vorberger, J., Helfrich, J., Gericke, D. O., Bachmann, B., Bagnoud, V., Barbrel, B., Blažević, A., Carroll, D. C., Cayzac, W., Döppner, T., Fletcher, L. B., Frank, A., Frydrych, S., Gamboa, E. J., Gauthier, M., Göde, S., Granados, E., Gregori, G., and Hartley, N. J.

Subjects

COMPLEX ions, CARBON, X-ray scattering, HIGH pressure (Science), GRAPHITE

Abstract

We present measurements of the complex ion structure of warm dense carbon close to the melting line at pressures around 100GPa. High-pressure samples were created by laser-driven shock compression of graphite and probed by intense laser-generated x-ray sources with photon energies of 4.75 keV and 4.95 keV. High-efficiency crystal spectrometers allow for spectrally resolving the scattered radiation. Comparing the ratio of elastically and inelastically scattered radiation, we find evidence for a complex bonded liquid that is predicted by ab-initio quantum simulations showing the influence of chemical bonds under these conditions. Using graphite samples of different initial densities we demonstrate the capability of spectrally resolved x-ray scattering to monitor the carbon solid-liquid transition at relatively constant pressure of 150 GPa. Showing first single-pulse scattering spectra from cold graphite of unprecedented quality recorded at the Linac Coherent Light Source, we demonstrate the outstanding possibilities for future high-precision measurements at 4th Generation Light Sources. [ABSTRACT FROM AUTHOR]

Published

2015

2. Electron-Ion Equilibration in Ultrafast Heated Graphite.

Author

White, T. G., Hartley, N. J., Borm, B., Crowley, B. J. B., Harris, J. W. O., Hochhaus, D. C., Kaempfer, T., Li, K., Neumayer, P., Pattison, L. K., Pfeifer, F., Richardson, S., Robinson, A. P. L., Uschmann, I., and Gregori, G.

Subjects

*X-ray diffraction, *GRAPHITE, *THERMIONIC emission, *ELECTRON-ion collisions, *LEPTONS (Nuclear physics)

Abstract

We have employed fast electrons produced by intense laser illumination to isochorically heat thermal electrons in solid density carbon to temperatures of ∼10?000??K. Using time-resolved x-ray diffraction, the temperature evolution of the lattice ions is obtained through the Debye-Waller effect, and this directly relates to the electron-ion equilibration rate. This is shown to be considerably lower than predicted from ideal plasma models. We attribute this to strong ion coupling screening the electron-ion interaction. [ABSTRACT FROM AUTHOR]

Published

2014