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MHz free electron laser x-ray diffraction and modeling of pulsed laser heated diamond anvil cell

Authors
Jaisle, NicolasCébron, DavidKonôpková, ZuzanaHusband, Rachel JPrescher, ClemensCerantola, ValerioDwivedi, AnandKaa, Johannes M.Appel, KarenBuakor, KhachiwanBall, Orianna B.McWilliams, Ryan S.Strohm, CorneliusNakatsutsumi, MotoakiZastrau, UlfBaehtz, CarstenAnna Baron, MarzenaEdmund, EricBiswas, JoydipaMcHardy, James D.Sturtevant, Blake T.Ehm, LarsGoncharov, Alexander F.McMahon, Malcolm I.Buchen, JohannesCynn, HyunchaePace, Edward J.Liermann, Hanns-PeterSneed, Daniel T.Cooper, Samantha C.Anae, MadisonKim, Jaeyong오중염Lee, YongjaeHwang, Huijeong J.Kim, TaehyunChoi, JinhyukLee, JeongminMerkel, SébastienChantel, JulienKoemets, Egor G.Marquardt, HaukePrakapenka, Vitali B.Chariton, StellaShevchenko, ElenaFiquet, GuillaumeRosa, Angelika D.Mezouar, MohamedGarbarino, GastonMorard, Guillaume
Issue Date
Sep-2023
Publisher
American Institute of Physics
Citation
Journal of Applied Physics, v.134, no.9, pp 1 - 19
Pages
19
Indexed
SCIE
SCOPUS
Journal Title
Journal of Applied Physics
Volume
134
Number
9
Start Page
1
End Page
19
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/196763
DOI
10.1063/5.0149836
ISSN
0021-8979
1089-7550
Abstract
A new diamond anvil cell experimental approach has been implemented at the European x-ray Free Electron Laser, combining pulsed laser heating with MHz x-ray diffraction. Here, we use this setup to determine liquidus temperatures under extreme conditions, based on the determination of time-resolved crystallization. The focus is on a Fe-Si-O ternary system, relevant for planetary cores. This time-resolved diagnostic is complemented by a finite-element model, reproducing temporal temperature profiles measured experimentally using streaked optical pyrometry. This model calculates the temperature and strain fields by including (i) pressure and temperature dependencies of material properties, and (ii) the heat-induced thermal stress, including feedback effect on material parameter variations. Making our model more realistic, these improvements are critical as they give 7000 K temperature differences compared to previous models. Laser intensities are determined by seeking minimal deviation between measured and modeled temperatures. Combining models and streak optical pyrometry data extends temperature determination below detection limit. The presented approach can be used to infer the liquidus temperature by the appearance of SiO 2 diffraction spots. In addition, temperatures obtained by the model agree with crystallization temperatures reported for Fe-Si alloys. Our model reproduces the planetary relevant experimental conditions, providing temperature, pressure, and volume conditions. Those predictions are then used to determine liquidus temperatures at experimental timescales where chemical migration is limited. This synergy of novel time-resolved experiments and finite-element modeling pushes further the interpretation capabilities in diamond anvil cell experiments.
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