A system for scintillations from nuclear events has been developed and is presently in use at the Lawrence Radiation Laboratory. This paper primarily describes the pulsed light source used to simulate nuclear events; it also describes the necessary nanosecond pulse techniques to measure the light source parameters and to operate large numbers of lamps. Considerations concerning distribution networks are shown. Use of the light source as a spark gap trigger is also discussed
We introduce experimental systems which use accelerators to evaluate scintillation properties such a...
A nano-second time-of-flight system incorporating thin scintillators as transmission detectors and a...
A beam of MeV protons, accelerated by ultraintense laser-pulse interactions with a thin target foil,...
Computer Figure 1. Schematic of the LBL Pulsed X-ray Facilit. Light from a laser diode excites the p...
Progress in construction and scaling of a repetitively pulsed, flash x-ray device producing intense ...
A system to detect light from liquid argon scintillation has been implemented in a small, ICARUS-lik...
We propose nuclear experiments using gamma-ray pulses provided from high field plasma generated by h...
We have proposed a method for isotope-specific nondestructive assay (NDA) of nuclear materials based...
Solid targets irradiated with 10{sup 19} W/cm{sup 2} or greater of 1 {mu}m light in picosecond pulse...
Almost all experimental studies of the characteristics of nuclear-excited plasma formed by excitatio...
A renaissance in nuclear physics is occurring around the world because of a new kind of incredibly b...
We propose nuclear experiments using γ-ray pulses provided from high field plasma generated by high ...
A stable, intense nanosecond light pulse was obtained by nitrogen discharge lamp operated by free ru...
International audienceThe world of x-ray sources is divided between large "third generation" synchro...
A method capable of producing femto-second pulses of synchrotron radiation is proposed. It is based ...
We introduce experimental systems which use accelerators to evaluate scintillation properties such a...
A nano-second time-of-flight system incorporating thin scintillators as transmission detectors and a...
A beam of MeV protons, accelerated by ultraintense laser-pulse interactions with a thin target foil,...
Computer Figure 1. Schematic of the LBL Pulsed X-ray Facilit. Light from a laser diode excites the p...
Progress in construction and scaling of a repetitively pulsed, flash x-ray device producing intense ...
A system to detect light from liquid argon scintillation has been implemented in a small, ICARUS-lik...
We propose nuclear experiments using gamma-ray pulses provided from high field plasma generated by h...
We have proposed a method for isotope-specific nondestructive assay (NDA) of nuclear materials based...
Solid targets irradiated with 10{sup 19} W/cm{sup 2} or greater of 1 {mu}m light in picosecond pulse...
Almost all experimental studies of the characteristics of nuclear-excited plasma formed by excitatio...
A renaissance in nuclear physics is occurring around the world because of a new kind of incredibly b...
We propose nuclear experiments using γ-ray pulses provided from high field plasma generated by high ...
A stable, intense nanosecond light pulse was obtained by nitrogen discharge lamp operated by free ru...
International audienceThe world of x-ray sources is divided between large "third generation" synchro...
A method capable of producing femto-second pulses of synchrotron radiation is proposed. It is based ...
We introduce experimental systems which use accelerators to evaluate scintillation properties such a...
A nano-second time-of-flight system incorporating thin scintillators as transmission detectors and a...
A beam of MeV protons, accelerated by ultraintense laser-pulse interactions with a thin target foil,...