Q. Y. van den Berg scite author profile

Electron-ion collisional dynamics is of fundamental importance in determining plasma transport properties, nonequilibrium plasma evolution, and electron damage in diffraction imaging applications using bright x-ray free-electron lasers (FELs). Here we describe the first experimental measurements of ultrafast electron impact collisional ionization dynamics using resonant core-hole spectroscopy in a solid-density magnesium plasma, created and diagnosed with the Linac Coherent Light Source x-ray FEL. By resonantly pumping the 1s→2p transition in highly charged ions within an optically thin plasma, we have measured how off-resonance charge states are populated via collisional processes on femtosecond time scales. We present a collisional cross section model that matches our results and demonstrates how the cross sections are enhanced by dense-plasma effects including continuum lowering. Nonlocal thermodynamic equilibrium collisional radiative simulations show excellent agreement with the experimental results and provide new insight on collisional ionization and three-body-recombination processes in the dense-plasma regime.

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A quantum-inspired approach to exploit turbulence structures

Gourianov

Lubasch

Dolgov

et al. 2022

Nat Comput Sci

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Radially Polarized Light for Detection and Nanolocalization of Dielectric Particles on a Planar Substrate

et al. 2015

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A fast noninvasive method based on scattering from a focused radially polarized light to detect and localize subwavelength nanoparticles on a substrate is presented. The technique relies on polarization matching in the far field between scattered and spurious reflected fields. Results show a localization uncertainty of ≈ 10 −4 λ 2 is possible for a particle of area ≈λ 2 =16. The effect of simple pupil shaping is also shown.

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Probing the Electronic Structure of Warm Dense Nickel via Resonant Inelastic X-Ray Scattering

et al. 2020

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The development of bright free-electron lasers (FEL) has revolutionized our ability to create and study matter in the high-energy-density (HED) regime. Current diagnostic techniques have been successful in yielding information on fundamental thermodynamic plasma properties, but provide only limited or indirect information on the detailed quantum structure of these systems, and on how it is affected by ionization dynamics. Here we show how the valence electronic structure of solid-density nickel, heated to temperatures of around 10 of eVon femtosecond timescales, can be probed by single-shot resonant inelastic x-ray scattering (RIXS) at the Linac Coherent Light Source FEL. The RIXS spectrum provides a wealth of information on the HED system that goes well beyond what can be extracted from x-ray absorption or emission spectroscopy alone, and is particularly well suited to time-resolved studies of electronicstructure dynamics.

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Update of the α−n Yields for Reactor Fuel Materials for the Interest of Nuclear Safeguards

Simakov

Berg

2017

Nuclear Data Sheets

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Q. Y. van den Berg

Clocking Femtosecond Collisional Dynamics via Resonant X-Ray Spectroscopy

A quantum-inspired approach to exploit turbulence structures

Radially Polarized Light for Detection and Nanolocalization of Dielectric Particles on a Planar Substrate

Probing the Electronic Structure of Warm Dense Nickel via Resonant Inelastic X-Ray Scattering

Update of the α−n Yields for Reactor Fuel Materials for the Interest of Nuclear Safeguards

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