Includes bibliographical references (pages 065004-4).We present the first results from picosecond interferometry of dense laser-produced plasmas using a soft x-ray laser. The picosecond duration and short wavelength of the 14.7 nm Ni-like Pd laser mitigates effects associated with motion blurring and refraction through millimeter-scale plasmas. This enables direct measurement of the electron-density profile to within 10 μm of the target surface. A series of high-quality two-dimensional (2D) density measurements provide unambiguous characterization of the time evolution in a fast-evolving plasma suitable for validation of existing 1D and 2D hydrodynamic codes
Abstract: We have developed and used a soft x-ray Michelson interferometer to probe large laser-prod...
The X-UV interferometry is a promising tools for plasma electron density measurement. We report on ...
The X-UV interferometry is a promising tools for plasma electron density measurement. We report on ...
Abstract—We report soft X-ray interferograms that illustrate the use of a very compact table-top sof...
We have employed a Mach-Zehnder interferometer, using a Ne-like Y x- ray laser at 155 {Angstrom} as ...
We have used soft x-ray laser interferometry to study dense colliding plasmas produced by laser irra...
We have demonstrated a novel Mach-Zehnder soft x-ray interferometer that uses diffraction gratings a...
We have demonstrated a novel Mach-Zehnder soft x-ray interferometer that uses diffraction gratings a...
The understanding of the collision and subsequent interaction of counter-streaming high-density plas...
We have developed and used a soft x-ray Michelson interferometer to probe large laser-produced plasm...
We have developed and used a soft x-ray Michelson interferometer to probe large laser-produced plasm...
Collisionally pumped soft x-ray lasers now operate over a wavelength range extending from 4--40 nm. ...
Time-resolved probe interferometry was used to obtain complete density mapping of laser produced pla...
AbstractA fundamental to understanding physical processes in laser plasma is to study plasma density...
The x-ray laser is now being used at LLNL as a tool for measuring the behaviors of hot dense plasmas...
Abstract: We have developed and used a soft x-ray Michelson interferometer to probe large laser-prod...
The X-UV interferometry is a promising tools for plasma electron density measurement. We report on ...
The X-UV interferometry is a promising tools for plasma electron density measurement. We report on ...
Abstract—We report soft X-ray interferograms that illustrate the use of a very compact table-top sof...
We have employed a Mach-Zehnder interferometer, using a Ne-like Y x- ray laser at 155 {Angstrom} as ...
We have used soft x-ray laser interferometry to study dense colliding plasmas produced by laser irra...
We have demonstrated a novel Mach-Zehnder soft x-ray interferometer that uses diffraction gratings a...
We have demonstrated a novel Mach-Zehnder soft x-ray interferometer that uses diffraction gratings a...
The understanding of the collision and subsequent interaction of counter-streaming high-density plas...
We have developed and used a soft x-ray Michelson interferometer to probe large laser-produced plasm...
We have developed and used a soft x-ray Michelson interferometer to probe large laser-produced plasm...
Collisionally pumped soft x-ray lasers now operate over a wavelength range extending from 4--40 nm. ...
Time-resolved probe interferometry was used to obtain complete density mapping of laser produced pla...
AbstractA fundamental to understanding physical processes in laser plasma is to study plasma density...
The x-ray laser is now being used at LLNL as a tool for measuring the behaviors of hot dense plasmas...
Abstract: We have developed and used a soft x-ray Michelson interferometer to probe large laser-prod...
The X-UV interferometry is a promising tools for plasma electron density measurement. We report on ...
The X-UV interferometry is a promising tools for plasma electron density measurement. We report on ...