What question did this study set out to answer?

The aim is to explore transient optical polarization changes in wide-bandgap semiconductors under XUV irradiation.

April 23, 2026Open Access

Tracking ultrafast changes of optical properties in XUV-ray irradiated diamond

Key Points

The aim is to explore transient optical polarization changes in wide-bandgap semiconductors under XUV irradiation.
Theoretical examination of optical polarization in wide-bandgap semiconductors.
Use of femtosecond XUV pulses to trigger changes in diamond's optical properties.
Analysis of specific XUV pulse parameters affecting polarization angle.
An ultrafast change in the polarization angle of diamond was observed.
Results indicate potential for reversible modulation of optical polarization on a 100 fs timescale.
Findings support application in optical switching technologies.

Abstract

The principle behind light-induced switching, which is used in modern electronic devices, is the modulation of a light signal in an externally modified medium. This allows for real-time control of the signal’s phase, amplitude, or polarization. In this study, we theoretically examine transient changes in the optical polarization of wide-bandgap semiconductors irradiated by femtosecond XUV pulses to explore their potential applications in optical switching, using diamond as an example. Specifically, we observe that at a certain combination of XUV pulse parameters, an ultrafast change in the polarization angle can be triggered in diamond. These results suggest a promising approach to reversibly modulate the optical polarization in wide-bandgap semiconductors on a 100 fs timescale.

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Cite This Study

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

synapsesocial.com/papers/69e9bb9e85696592c86ed42e https://doi.org/https://doi.org/10.3204/pubdb-2025-04241

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