Laser-induced ultrafast structural transformations in thin Fe layer revealed by time-resolved X-ray diffraction
O. Liubchenko, J. Antonowicz, K. Sokolowski-Tinten, P. Zalden, R. Minikayev, I. Milov, T. J. Albert, C. Bressler, M. Chojnacki, P. D{\l}u\.zewski, P. Dzi\k{e}gielewski, A. Rodriguez-Fernandez, K. Fronc, W. Gawelda, K. Georgarakis, A.L. Greer, I. Jacyna, R.W.E. van de Kruijs
TL;DR
This study investigates ultrafast laser-induced structural changes in a thin iron film using time-resolved X-ray diffraction, revealing a transient tetragonal distortion and metastable phase formation within picoseconds.
Contribution
It provides new insights into the ultrafast dynamics and phase transformations of iron under laser excitation using time-resolved X-ray diffraction.
Findings
Tetragonal distortion appears at ~6 ps after laser heating
Partial melting occurs within 2-5 ps
Metastable bct phase persists for at least 60 ps
Abstract
The ultrafast structural response of a thin iron film to sub-ps pulsed laser-induced heating has been investigated using time-resolved X-ray diffraction in the partial melting regime. A tetragonal distortion of the bcc-phase emerges at ~6 ps. Its formation is delayed relative to the initial heating (1-2 ps) and partial melting (2-5 ps) of the material, and controlled by the stress release in the quasi-instantaneously pressurized film. The distortion persists for at least 60 ps indicating the formation of a metastable bct phase between the equilibrium bcc and fcc phases.
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