What question did this study set out to answer?

The aim is to analyze ultrafast transitions in solids caused by X-ray irradiation and the necessary modeling techniques.

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March 13, 2026Open Access

Ultrafast Transitions in X‐Ray Irradiated Solids

Key Points

The aim is to analyze ultrafast transitions in solids caused by X-ray irradiation and the necessary modeling techniques.
Review current developments in modeling techniques for pulsed X-ray interactions.
Discuss simulation tools like XCASCADE-3D, XTANT, and XSPIN.
Explore transitions from electronic changes to structural transformations in solids.
Identification of new simulation methods for X-ray-induced transitions.
Understanding of how X-ray irradiation alters optical and magnetic properties of materials.
Insights into the transition of materials into warm-dense matter or plasma states.

Abstract

ABSTRACT In this review, we present current developments on modeling ultrafast transitions in solids triggered by intense, atto‐ to femtosecond pulses from X‐ray free electron lasers. This specific irradiation regime requires dedicated simulation tools based on theoretical and computational methods, involving the elements of classical and quantum physics. Our in‐house codes, XCASCADE‐3D, XTANT, and XSPIN, can follow various X‐ray‐induced transitions in irradiated solids, ranging from purely electronic transitions, changing solid's optical and magnetic properties to rapid structural changes, bringing the irradiated material into the warm‐dense‐matter, or plasma state.

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Cite This Study

Antunes et al. (Tue,) studied this question.

synapsesocial.com/papers/69b3abb202a1e69014cccd34 https://doi.org/https://doi.org/10.1002/ctpp.70095

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