Add to ORKGResults from spectral radiance measurements using optical multi-channel analyzer over the visible and near infrared regime provide estimates of temperature from expansion products resulting from shocked materials. Specifically, we have made spectral radiance measurements over the wavelength regime of 300–1500 nm. Experiments conducted on aluminum, cerium, and Composition-B high explosive span a wide regime of E/E_v, where E is the internal energy increase of the shocked material, and E_v, is the specific energy required to vaporize the material. For the materials investigated, the ratio is ~ 1, 3 and 5 for aluminum, cerium, and Composition-B, respectively. The basic assumption made to deduce these temperatures is that the debris cloud is ra...
This dissertation explores the shock compression of solid state explosives by thin, laser-driven fly...
Chemical processes occurring in shock-compressed and detonating high explosives have been studied us...
Aluminum is seen as an additional source of energy that can be added to propulsion and explosive sys...
A system for measurement of the spectral radiance of materials shocked to high pressures (~100 GPa) ...
[1] Optical emission of MgSiO3 glass, enstatite, olivine, and quartz under shock wave compression wa...
An optical system has been developed which can determine time-resolved temperatures in shocked mater...
The behaviour of materials at high pressure is relevant for a number of fields, including defence, a...
There is a need for fundamental science to defeat weapons of mass destruction. Prompt bioagent defea...
Summary. Temperatures of CaA12Si208 janorthite glass) shocked to pressures between 48 and I17GPa hav...
Laboratory experiments of hypervelocity impacts on aluminum, nylon and high-explosive targets are pr...
The remote observations of the temporal and spectral characteristics of the infrared (IR) emissions ...
Recent observations of shock-induced radiation from oxides, silicates and metals of geophysical inte...
Intense heavy ion beams are an excellent tool to create large-volume samples of high energy density ...
AbstractLaboratory experiments of hypervelocity impacts on aluminum, nylon and high-explosive target...
Z-pinches created using the Z accelerator generate {approximately}220 TW, 1.7 MJ radiation pulses th...
This dissertation explores the shock compression of solid state explosives by thin, laser-driven fly...
Chemical processes occurring in shock-compressed and detonating high explosives have been studied us...
Aluminum is seen as an additional source of energy that can be added to propulsion and explosive sys...
A system for measurement of the spectral radiance of materials shocked to high pressures (~100 GPa) ...
[1] Optical emission of MgSiO3 glass, enstatite, olivine, and quartz under shock wave compression wa...
An optical system has been developed which can determine time-resolved temperatures in shocked mater...
The behaviour of materials at high pressure is relevant for a number of fields, including defence, a...
There is a need for fundamental science to defeat weapons of mass destruction. Prompt bioagent defea...
Summary. Temperatures of CaA12Si208 janorthite glass) shocked to pressures between 48 and I17GPa hav...
Laboratory experiments of hypervelocity impacts on aluminum, nylon and high-explosive targets are pr...
The remote observations of the temporal and spectral characteristics of the infrared (IR) emissions ...
Recent observations of shock-induced radiation from oxides, silicates and metals of geophysical inte...
Intense heavy ion beams are an excellent tool to create large-volume samples of high energy density ...
AbstractLaboratory experiments of hypervelocity impacts on aluminum, nylon and high-explosive target...
Z-pinches created using the Z accelerator generate {approximately}220 TW, 1.7 MJ radiation pulses th...
This dissertation explores the shock compression of solid state explosives by thin, laser-driven fly...
Chemical processes occurring in shock-compressed and detonating high explosives have been studied us...
Aluminum is seen as an additional source of energy that can be added to propulsion and explosive sys...
