Add to ORKGWe investigate the use of energetic electron beams for high-resolution radiography of flaws embedded in thick solid objects. A bright, monoenergetic electron beam (with energy \u3e100 MeV) was generated by the process of laser-wakefield acceleration through the interaction of 50-TW, 30-fs laser pulses with a supersonic helium jet. The high energy, low divergence, and small source size of these beams make them ideal for high-resolution radiographic studies of cracks or voids embedded in dense materials that are placed at a large distance from the source. We report radiographic imaging of steel with submillimeter resolution
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
We investigate the use of energetic electron beams for high-resolution radiography of flaws embedded...
We investigate the use of energetic electron beams for high-resolution radiography of flaws embedded...
We are studying the use of 0.1 - 1.0 GeV laser-accelerated electron beams as active interrogation pr...
We are studying the use of 0.1 - 1.0 GeV laser-accelerated electron beams as active interrogation pr...
International audienceAn electron beam from a laser-plasma accelerator is converted into a γ-ray sou...
International audienceAn electron beam from a laser-plasma accelerator is converted into a γ-ray sou...
International audienceAn electron beam from a laser-plasma accelerator is converted into a γ-ray sou...
International audienceAn electron beam from a laser-plasma accelerator is converted into a γ-ray sou...
International audienceAn electron beam from a laser-plasma accelerator is converted into a γ-ray sou...
International audienceAn electron beam from a laser-plasma accelerator is converted into a γ-ray sou...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
This study presents experimental and numerical results for the high-energy electron-beam radiography...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
We investigate the use of energetic electron beams for high-resolution radiography of flaws embedded...
We investigate the use of energetic electron beams for high-resolution radiography of flaws embedded...
We are studying the use of 0.1 - 1.0 GeV laser-accelerated electron beams as active interrogation pr...
We are studying the use of 0.1 - 1.0 GeV laser-accelerated electron beams as active interrogation pr...
International audienceAn electron beam from a laser-plasma accelerator is converted into a γ-ray sou...
International audienceAn electron beam from a laser-plasma accelerator is converted into a γ-ray sou...
International audienceAn electron beam from a laser-plasma accelerator is converted into a γ-ray sou...
International audienceAn electron beam from a laser-plasma accelerator is converted into a γ-ray sou...
International audienceAn electron beam from a laser-plasma accelerator is converted into a γ-ray sou...
International audienceAn electron beam from a laser-plasma accelerator is converted into a γ-ray sou...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
This study presents experimental and numerical results for the high-energy electron-beam radiography...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...