Add to ORKGWe report first light from a novel, new source of 10-ps 0.776-MeV gamma-ray pulses known as T-REX (Thomson-Radiated Extreme X-rays). The MeV-class radiation produced by TREX is unique in the world with respect to its brightness, spectral purity, tunability, pulse duration and laser-like beam character. With T-REX, one can use photons to efficiently probe and excite the isotope-dependent resonant structure of atomic nucleus. This ability will be enabling to an entirely new class of isotope-specific, high resolution imaging and detection capabilities
Research into nuclear isomers can lead to the development of a gamma-ray laser (GRASER), thus openin...
Recent progress in accelerator physics and laser technology have enabled the development of a new cl...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
The interaction of intense laser light with relativistic electrons can produce unique sources of hig...
Recent advances in high brightness rf gun technology, coupled with novel laser systems and architect...
A renaissance in nuclear physics is occurring around the world because of a new kind of incredibly b...
A new class of tunable, monochromatic {gamma}-ray sources capable of operating at high peak and aver...
A high peak brilliance, laser-based Compton-scattering γ-ray source, capable of producing quasimonoe...
We report current progress on a project to develop an all-optically-driven x-ray photon source. A la...
We report current progress on a project to develop an all-optically-driven x-ray photon source. A la...
Nuclear photonics is an emerging field of research requiring new tools, including high spectral brig...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
Research into nuclear isomers can lead to the development of a gamma-ray laser (GRASER), thus openin...
Research into nuclear isomers can lead to the development of a gamma-ray laser (GRASER), thus openin...
A Compton scattering {gamma}-ray source, capable of producing photons with energies ranging from 0.1...
Research into nuclear isomers can lead to the development of a gamma-ray laser (GRASER), thus openin...
Recent progress in accelerator physics and laser technology have enabled the development of a new cl...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
The interaction of intense laser light with relativistic electrons can produce unique sources of hig...
Recent advances in high brightness rf gun technology, coupled with novel laser systems and architect...
A renaissance in nuclear physics is occurring around the world because of a new kind of incredibly b...
A new class of tunable, monochromatic {gamma}-ray sources capable of operating at high peak and aver...
A high peak brilliance, laser-based Compton-scattering γ-ray source, capable of producing quasimonoe...
We report current progress on a project to develop an all-optically-driven x-ray photon source. A la...
We report current progress on a project to develop an all-optically-driven x-ray photon source. A la...
Nuclear photonics is an emerging field of research requiring new tools, including high spectral brig...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...
Research into nuclear isomers can lead to the development of a gamma-ray laser (GRASER), thus openin...
Research into nuclear isomers can lead to the development of a gamma-ray laser (GRASER), thus openin...
A Compton scattering {gamma}-ray source, capable of producing photons with energies ranging from 0.1...
Research into nuclear isomers can lead to the development of a gamma-ray laser (GRASER), thus openin...
Recent progress in accelerator physics and laser technology have enabled the development of a new cl...
International audienceGamma-ray beams with optimal and tuneable size, temperature, and dose are of g...