X-ray thermal diffuse scattering as a texture-robust temperature diagnostic for dynamically compressed solidsopen access
- Authors
- Heighway, P.G.; Peake, D.J.; Stevens, T.; Wark, J.S.; Albertazzi, B.; Ali, S.J.; Antonelli, L.; Armstrong, M.R.; Baehtz, C.; Kim, J.; Ball, O.B.; Banerjee, S.; Belonoshko, A.B.; Bolme, C.A.; Bouffetier, V.; Briggs, R.; Buakor, K.; Butcher, T.; Di Dio Cafiso, Samuele Davide; Cerantola, V.; Chantel, J.; Di Cicco, Andrea D.; Coleman, A.L.; Collier, J.; Collins, G.; Comley, A.J.; Coppari, F.; Cowan, T.E.; Cristoforetti, G.; Cynn, H.; Descamps, A.; Dorchies, F.; Duff, M.J.; Dwivedi, A.; Edwards, C.; Eggert, J.H.; Errandonea, D.; Fiquet, G.; Galtier, E.; Laso, Garcia A.; Ginestet, H.; Gizzi, L.; Gleason, A.; Goede, S.; Gonzalez, J.M.; Gorman, M.G.; Harmand, M.; Hartley, N.J.; Hernandez-Gomez, C.; Higginbotham, A.; Hoppner, H.; Humphries, O.S.; Husband, R.J.; Hutchinson, T.M.; Hwang, H.; Keen, D.A.; Koester, P.; Konopkova, Z.; Kraus, D.; Krygier, A.; Labate, L.; Lazicki, A.E.; Lee, Y.; Liermann, H.-P.; Mason, P.; Masruri, M.; Massani, B.; McBride, E.E.; McGuire, C.; McHardy, J.D.; McGonegle, D.; McWilliams, R.S.; Merkel, S.; Morard, G.; Nagler, B.; Nakatsutsumi, M.; Nguyen-Cong, K.; Norton, A.-M.; Oleynik, I.I.; Otzen, C.; Ozaki, N.; Pandolfi, S.; Pelka, A.; Pereira, K.A.; Phillips, J.P.; Prescher, C.; Preston, T.; Randolph, L.; Ranjan, D.; Ravasio, A.; Rips, J.; Santamaria-Perez, D.; Savage, D.J.; Schoelmerich, M.; Schwinkendorf, J.-P.; Singh, S.; Smith, J.; Smith, R.F.; Sollier, A.; Spear, J.; Spindloe, C.; Stevenson, M.; Strohm, C.; Suer, T.-A.; Tang, M.; Toncian, M.; Toncian, T.; Tracy, S.J.; Trapananti, A.; Tschentscher, T.; Tyldesley, M.; Vennari, C.E.; Vinci, T.; Vogel, S.C.; Volz, T.J.; Vorberger, J.; Willman, J.T.; Wollenweber, L.; Zastrau, U.; Brambrink, E.; Appel, K.; McMahon, M.I.
- Issue Date
- Oct-2025
- Publisher
- American Institute of Physics
- Citation
- Journal of Applied Physics, v.138, no.15, pp 1 - 23
- Pages
- 23
- Indexed
- SCIE
SCOPUS
- Journal Title
- Journal of Applied Physics
- Volume
- 138
- Number
- 15
- Start Page
- 1
- End Page
- 23
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212961
- DOI
- 10.1063/5.0295250
- ISSN
- 0021-8979
1089-7550
- Abstract
- We present a model of x-ray thermal diffuse scattering (TDS) from a cubic polycrystal with an arbitrary crystallographic texture, based on the classic approach of Warren [B. E. Warren, Acta Crystallogr. 6, 803 (1953)]. We compare the predictions of our model with femtosecond x-ray diffraction patterns gathered from ambient and dynamically compressed rolled copper foils obtained at the High Energy Density instrument of the European X-Ray Free-Electron Laser facility and find that the texture-aware TDS model yields more accurate results than does the conventional powder model owed to Warren. Nevertheless, we further show: with sufficient angular detector coverage, the TDS signal is largely unchanged by sample orientation and in all cases strongly resembles the signal from a perfectly random powder; shot-to-shot fluctuations in the TDS signal resulting from grain-sampling statistics are at the percent level, in stark contrast to the fluctuations in the Bragg-peak intensities (which are over an order of magnitude greater); and TDS is largely unchanged even following texture evolution caused by compression-induced plastic deformation. We conclude that TDS is robust against texture variation, making it a flexible temperature diagnostic applicable just as well to off-the-shelf commercial foils as to ideal powders.
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