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- Nam, Inhyuk
- Extreme Lasers and Exotic Plasmas Lab
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Ultrafast X-Ray Diffraction Studies of the Phase Transitions and Equation of State of Scandium Shock Compressed to 82 GPa
- Author(s)
- Briggs, R., Gorman, M. G., Coleman, A. L., McWilliams, R. S., McBride, E. E., McGonegle, D., Wark, J. S., Peacock, L., Rothman, S., Macleod, S. G., Bolme, C. A., Gleason, A. E., Collins, G. W., Eggert, J. H., Fratanduono, D. E., Smith, R. F., Galtier, E., Granados, E., Lee, H. J., Nagler, B., Nam, Inhyuk, Xing, Z., McMahon, M. I.
- Issued Date
- 2017-01
- Citation
- PHYSICAL REVIEW LETTERS, v.118, no.2, pp.025501
- Abstract
- Using x-ray diffraction at the Linac Coherent Light Source x-ray free-electron laser, we have determined simultaneously and self-consistently the phase transitions and equation of state (EOS) of the lightest transition metal, scandium, under shock compression. On compression scandium undergoes a structural phase transition between 32 and 35 GPa to the same bcc structure seen at high temperatures at ambient pressures, and then a further transition at 46 GPa to the incommensurate host-guest polymorph found above 21 GPa in static compression at room temperature. Shock melting of the host-guest phase is observed between 53 and 72 GPa with the disappearance of Bragg scattering and the growth of a broad asymmetric diffraction peak from the high-density liquid.
- Publisher
- AMER PHYSICAL SOC
- ISSN
- 0031-9007
- Keyword
- MATTER, IRON, HIGH-PRESSURE, METALS
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