The Campus Executive Program sponsored this research at Cornell University. The research was directed toward the implementation of laser-based diagnostics for wire-array Z-pinches. Under this contract we were able to carry out all the necessary preparations to setup the laser diagnostics to complement our x-ray backlighting measurements of the early phase of exploding wire z-pinch plasma formation
The wire array Z-pinch is the world's most powerful laboratory X-ray source. An achieved power of #a...
The use of ultrahigh intensity laser pulses (I>5×1019 W cm-2) to irradiate thin wire targets was ana...
Fast Z-pinch technology developed on the Z machine at Sandia National Laboratories can produce up to...
Z-pinches have several practical applications, including: creation of both x-rays and blackbody radi...
Understanding the magnetic field topology in wire-array Z-pinches is of great sig-nificance for thei...
An advanced set of laser probing diagnostics was applied for the investigation of implosion dynamics...
Star and cylindrical wire arrays were studied using laser probing and X-ray radiography at the 1-MA ...
Z pinches are a class of plasma configuration in which a large electrical current pulse magnetically...
The structure of magnetic fields in wire-array Z pinches at stagnation was studied using a Faraday r...
Thesis (Master's)--University of Washington, 2022A Z-pinch configuration plasma has been theoretical...
The investigation of Z-pinches on university-scale pulsed power generators allows for the study of p...
Recent developments in pulsed power technology demonstrate use of intense radiation sources (Z pinch...
Experiments were performed in which ultrahigh intensity laser pulses (I>5×1019 W cm-2) were used to ...
Experiments were performed in which ultrahigh intensity laser pulses (I>5×1019 W cm-2) were used to ...
Experiments were performed in which ultrahigh intensity laser pulses (I>5×1019 W cm-2) were used to ...
The wire array Z-pinch is the world's most powerful laboratory X-ray source. An achieved power of #a...
The use of ultrahigh intensity laser pulses (I>5×1019 W cm-2) to irradiate thin wire targets was ana...
Fast Z-pinch technology developed on the Z machine at Sandia National Laboratories can produce up to...
Z-pinches have several practical applications, including: creation of both x-rays and blackbody radi...
Understanding the magnetic field topology in wire-array Z-pinches is of great sig-nificance for thei...
An advanced set of laser probing diagnostics was applied for the investigation of implosion dynamics...
Star and cylindrical wire arrays were studied using laser probing and X-ray radiography at the 1-MA ...
Z pinches are a class of plasma configuration in which a large electrical current pulse magnetically...
The structure of magnetic fields in wire-array Z pinches at stagnation was studied using a Faraday r...
Thesis (Master's)--University of Washington, 2022A Z-pinch configuration plasma has been theoretical...
The investigation of Z-pinches on university-scale pulsed power generators allows for the study of p...
Recent developments in pulsed power technology demonstrate use of intense radiation sources (Z pinch...
Experiments were performed in which ultrahigh intensity laser pulses (I>5×1019 W cm-2) were used to ...
Experiments were performed in which ultrahigh intensity laser pulses (I>5×1019 W cm-2) were used to ...
Experiments were performed in which ultrahigh intensity laser pulses (I>5×1019 W cm-2) were used to ...
The wire array Z-pinch is the world's most powerful laboratory X-ray source. An achieved power of #a...
The use of ultrahigh intensity laser pulses (I>5×1019 W cm-2) to irradiate thin wire targets was ana...
Fast Z-pinch technology developed on the Z machine at Sandia National Laboratories can produce up to...
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