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Main Author: Serrat, Carles
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2601.16562
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author Serrat, Carles
author_facet Serrat, Carles
contents We analyze a class of inner-shell x-ray laser systems in which the initial conditions of the emission are set by a resonant x-ray difference-frequency drive. Using a microscopic density-matrix framework, we show that two coherent x-ray fields at frequencies $ω_1$ and $ω_2$, with $ω_1-ω_2=ω_0$, can induce a phase-locked coherence on a core-level transition at $ω_0$ without requiring an external field or nonlinear susceptibility at that frequency. In the presence of population inversion, this driven coherence sets the phase and temporal onset of the amplified field, while gain remains governed by conventional inner-shell lasing mechanisms. We refer to this operating regime as a resonant x-ray difference-frequency laser (re-XDFL). The analysis demonstrates that difference-frequency-driven coherence provides a physically consistent route to controlled inner-shell x-ray laser emission beyond purely ASE-initiated operation.
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publishDate 2026
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spellingShingle Resonant X-Ray Difference-Frequency Seeding of Inner-Shell X-Ray Lasers
Serrat, Carles
Atomic Physics
We analyze a class of inner-shell x-ray laser systems in which the initial conditions of the emission are set by a resonant x-ray difference-frequency drive. Using a microscopic density-matrix framework, we show that two coherent x-ray fields at frequencies $ω_1$ and $ω_2$, with $ω_1-ω_2=ω_0$, can induce a phase-locked coherence on a core-level transition at $ω_0$ without requiring an external field or nonlinear susceptibility at that frequency. In the presence of population inversion, this driven coherence sets the phase and temporal onset of the amplified field, while gain remains governed by conventional inner-shell lasing mechanisms. We refer to this operating regime as a resonant x-ray difference-frequency laser (re-XDFL). The analysis demonstrates that difference-frequency-driven coherence provides a physically consistent route to controlled inner-shell x-ray laser emission beyond purely ASE-initiated operation.
title Resonant X-Ray Difference-Frequency Seeding of Inner-Shell X-Ray Lasers
topic Atomic Physics
url https://arxiv.org/abs/2601.16562