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O: Fachverband Oberflächenphysik

O 98: Ultrafast electron dynamics at surface and interfaces IV

O 98.3: Vortrag

Freitag, 13. März 2026, 10:15–10:30, TRE/MATH

Ultrafast x-ray sonography: A novel technique to spatially resolve phase heterogeneity on picosecond timescales — •Maximilian Mattern¹, Angel Rodriguez-Fernandez², Roman Shayduk², Wonhyuk Jo², Vojtech Uhlir³, Jon Ander Arregi³, Anders Madsen², Daniel Schick¹, and Jan-Etienne Pudell² — ¹Max-Born-Institut, Germany — ²European XFEL, Germany — ³CEITEC BUT, Czech Republic

Laser-induced heterogeneities play an important role for ultrafast dynamics especially of first-order phase transitions due to the phase co-existence during nucleation. However, their probing on picosecond time and nanometer length scales is challenging.

To address this challenge, we introduce ultrafast X-ray sonography. It combines well-established ultrafast hard-X-ray diffraction with a propagating strain pulse as a universal and non-invasive structural marker. The signatures of the strain pulse in the phase-specific lattice dynamics localizes the different phases in both space and time. This non-invasive pump-probe technique can follow the coherent growth and stochastic nucleation of structural domains on picosecond timescales with almost no requirements for sample preparation and is broadly applicable to a broad class of materials, provided that the coexisting phases exhibit distinguishable diffraction signatures. As a benchmark, we apply this approach to the antiferromagnetic-to-ferromagnetic magneto-structural phase transition in FeRh and identify the ferromagnetic phase to nucleate at the surface as columnar domains of approximately 30nm diameter.

Keywords: ultrafast x-ray diffraction; phase transition; phase heterogeneity; FeRh