Add to ORKGGigahertz (GHz) imaging technology will be needed at high-luminosity X-ray and charged particle sources. It is plausible to combine fast scintillators with the latest picosecond detectors and GHz electronics for multi-frame hard Xray imaging and achieve an inter-frame time of less than 10 ns. The time responses and light yield of LYSO, LaBr_3, BaF_2 and ZnO are measured using an MCP-PMT detector. Zinc Oxide (ZnO) is an attractive material for fast hard X-ray imaging based on GEANT4 simulations and previous studies, but the measured light yield from the samples is much lower than expected
Synchrotrons can provide very intense and focused X-ray beams, which can be used tostudy the structu...
Wired array studies are being conducted at the SNL Z accelerator to maximize the x-ray generation fo...
Gigahertz hard X-ray imaging presents an unprecedented challenge to both timing and spatial resoluti...
State-of-the art X-ray imaging cameras using silicon sensors for X-ray detection have demonstrated a...
Gigahertz hard X-ray imaging for the proposed matter-radiation interaction in extreme project presen...
Gigahertz hard X-ray imaging for the proposed matter-radiation interaction in extreme project presen...
Gigahertz (GHz) hard X-ray imaging for the proposed MaRIE project presents an unprecedented challeng...
X-ray sources continue to advance in both intensity and temporal domains, thereby opening new ways t...
This paper discusses the optimization of the performance of imaging scintillation detectors used in ...
Timeresolved imaging with penetrating radiation has an outstanding scientific value but its realisat...
Ultrafast inorganic scintillators with excellent radiation hardness are required for future HEP expe...
AbstractThe bremsstrahlung X-ray spectrum in high-energy, high-intensity X-ray cargo inspection syst...
The demand for detectors with a time resolution below 100 ps is at the center of research in differe...
Novel radiation-hard scintillators were developed in the last years based on indium-doped ZnO cerami...
We report the first successful time-resolved X-ray measurements at the APS 10-ID-B beamline by coupl...
Synchrotrons can provide very intense and focused X-ray beams, which can be used tostudy the structu...
Wired array studies are being conducted at the SNL Z accelerator to maximize the x-ray generation fo...
Gigahertz hard X-ray imaging presents an unprecedented challenge to both timing and spatial resoluti...
State-of-the art X-ray imaging cameras using silicon sensors for X-ray detection have demonstrated a...
Gigahertz hard X-ray imaging for the proposed matter-radiation interaction in extreme project presen...
Gigahertz hard X-ray imaging for the proposed matter-radiation interaction in extreme project presen...
Gigahertz (GHz) hard X-ray imaging for the proposed MaRIE project presents an unprecedented challeng...
X-ray sources continue to advance in both intensity and temporal domains, thereby opening new ways t...
This paper discusses the optimization of the performance of imaging scintillation detectors used in ...
Timeresolved imaging with penetrating radiation has an outstanding scientific value but its realisat...
Ultrafast inorganic scintillators with excellent radiation hardness are required for future HEP expe...
AbstractThe bremsstrahlung X-ray spectrum in high-energy, high-intensity X-ray cargo inspection syst...
The demand for detectors with a time resolution below 100 ps is at the center of research in differe...
Novel radiation-hard scintillators were developed in the last years based on indium-doped ZnO cerami...
We report the first successful time-resolved X-ray measurements at the APS 10-ID-B beamline by coupl...
Synchrotrons can provide very intense and focused X-ray beams, which can be used tostudy the structu...
Wired array studies are being conducted at the SNL Z accelerator to maximize the x-ray generation fo...
Gigahertz hard X-ray imaging presents an unprecedented challenge to both timing and spatial resoluti...