Add to ORKGGigahertz hard X-ray imaging for the proposed matter-radiation interaction in extreme project presents an unprecedented challenge to front imager in both speed and radiation hardness. Novel fast scintillators are to be developed to face these challenges. This paper presents an investigation on the optical and scintillation properties for a set of fast inorganic scintillators. Transmittance, emission, light output, and decay time were measured. Based on this investigation, we plan to take two approaches to develop inorganic scintillators with subnanoseconds of decay time for the gigahertz hard X-ray imaging. One is yttrium-doped barium fluoride single crystals, and another is based on gallium-doped ZnO nanoparticles
We report on several methods for synthesizing the ultra-fast scintillator ZnO(Ga), and measurements ...
We present recent results from an ongoing search for inorganic scintillators for gamma ray detection...
The implementation of nanocrystal-based composite scintilla-tors as a new generation of ultrafast pa...
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...
State-of-the art X-ray imaging cameras using silicon sensors for X-ray detection have demonstrated a...
Ultrafast inorganic scintillators with excellent radiation hardness are required for future HEP expe...
The demand for detectors with a time resolution below 100 ps is at the center of research in differe...
Future HEP experiments at the energy and intensity frontiers require fast and ultrafast inorganic sc...
Future HEP experiments at the energy and intensity frontiers require fast inorganic crystal scintill...
Gigahertz (GHz) imaging technology will be needed at high-luminosity X-ray and charged particle sour...
Novel radiation-hard scintillators were developed in the last years based on indium-doped ZnO cerami...
Gigahertz hard X-ray imaging presents an unprecedented challenge to both timing and spatial resoluti...
Semiconductor scintillators are worth studying because they include both the highest luminosities an...
We report on several methods for synthesizing the ultra-fast scintillator ZnO(Ga), and measurements ...
We present recent results from an ongoing search for inorganic scintillators for gamma ray detection...
The implementation of nanocrystal-based composite scintilla-tors as a new generation of ultrafast pa...
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...
State-of-the art X-ray imaging cameras using silicon sensors for X-ray detection have demonstrated a...
Ultrafast inorganic scintillators with excellent radiation hardness are required for future HEP expe...
The demand for detectors with a time resolution below 100 ps is at the center of research in differe...
Future HEP experiments at the energy and intensity frontiers require fast and ultrafast inorganic sc...
Future HEP experiments at the energy and intensity frontiers require fast inorganic crystal scintill...
Gigahertz (GHz) imaging technology will be needed at high-luminosity X-ray and charged particle sour...
Novel radiation-hard scintillators were developed in the last years based on indium-doped ZnO cerami...
Gigahertz hard X-ray imaging presents an unprecedented challenge to both timing and spatial resoluti...
Semiconductor scintillators are worth studying because they include both the highest luminosities an...
We report on several methods for synthesizing the ultra-fast scintillator ZnO(Ga), and measurements ...
We present recent results from an ongoing search for inorganic scintillators for gamma ray detection...
The implementation of nanocrystal-based composite scintilla-tors as a new generation of ultrafast pa...