Litcius/Paper detail

Shortening X-Ray Pulse Duration via Saturable Absorption

Ichiro Inoue, Yuichi Inubushi, Taito Osaka, Jumpei Yamada, Kenji Tamasaku, Hitoki Yoneda, Makina Yabashi

2021Physical Review Letters21 citationsDOIOpen Access PDF

Abstract

To shorten the duration of x-ray pulses, we present a nonlinear optical technique using atoms with core-hole vacancies (core-hole atoms) generated by inner-shell photoionization. The weak Coulomb screening in the core-hole atoms results in decreased absorption at photon energies immediately above the absorption edge. By employing this phenomenon, referred to as saturable absorption, we successfully reduce the duration of x-ray free-electron laser pulses (photon energy: 9.000 keV, duration: 6-7 fs, fluence: 2.0-3.5×10^{5} J/cm^{2}) by ∼35%. This finding that core-hole atoms are applicable to nonlinear x-ray optics is an essential stepping stone for extending nonlinear technologies commonplace at optical wavelengths to the hard x-ray region.

Topics & Concepts

Saturable absorptionPulse durationPhotoionizationAbsorption (acoustics)FluencePhoton energyAtomic physicsCore (optical fiber)LaserPhotonElectronNonlinear opticsTwo-photon absorptionAbsorption edgeOpticsWavelengthMaterials sciencePhysicsIonizationOptoelectronicsIonBand gapNuclear physicsQuantum mechanicsFiber laserAdvanced X-ray Imaging TechniquesLaser-Plasma Interactions and DiagnosticsCrystallography and Radiation Phenomena
Shortening X-Ray Pulse Duration via Saturable Absorption | Litcius