Understanding the Earth's Core and Beyond through Iron
Abstract not provided.
Publications
Equation of State Measurements on Iron Along an Elevated Isentrope to 400 GPa
Abstract not provided.
Equation of State Measurements on Iron Along an Elevated Isentrope to 400 GPa
Abstract not provided.
Uncertainties in cylindrical anode current inferences on pulsed power drivers
Physics of Plasmas
For over a decade, velocimetry based techniques have been used to infer the electrical current delivered to dynamic materials properties experiments on pulsed power drivers such as the Z Machine. Though originally developed for planar load geometries, in recent years, inferring the current delivered to cylindrical coaxial loads has become a valuable diagnostic tool for numerous platforms. Presented is a summary of uncertainties that can propagate through the current inference technique when applied to expanding cylindrical anodes. An equation representing quantitative uncertainty is developed which shows the unfold method to be accurate to a few percent above 10 MA of load current.
Direct measurements of anode/cathode gap plasma in cylindrically imploding loads on the Z machine
Physics of Plasmas
By deploying a photon Doppler velocimetry based plasma diagnostic, we have directly observed low density plasma in the load anode/cathode gap of cylindrically converging pulsed power targets. The arrival of this plasma is temporally correlated with gross current loss and subtle power flow differences between the anode and the cathode. The density is in the range where Hall terms in the electromagnetic equations are relevant, but this physics is lacking in the magnetohydrodynamics codes commonly used to design, analyze, and optimize pulsed power experiments. The present work presents evidence of the importance of physics beyond traditional resistive magnetohydrodynamics for the design of pulsed power targets and drivers.
Unconventional PDV applications: detecting plasma and radiation
Abstract not provided.
Accounting for slotted cylindrical anodes in current inferences on pulsed power drivers
Abstract not provided.
Plasma and radiation detection via fiber interferometry
Journal of Applied Physics
Photonic Doppler velocimetry tracks motion during high-speed, single-event experiments using telecommunication fiber components. The same technology can be applied in situations where there is no actual motion, but rather a change in the optical path length. Migration of plasma into vacuum alters the refractive index near a fiber probe, while intense radiation modifies the refractive index of the fiber itself. These changes can diagnose extreme environments in a flexible, time-resolved manner.
Streaked Visible Spectroscopy of Power Flow Surface Plasmas: Anodes Cathodes Convolutes and Loads
Abstract not provided.
PDV based technique for probing AK gap plasma in Z Machine target loads
Abstract not provided.
Single-shot Ellipsometry of Shocked Iron to 275 GPa
Abstract not provided.
Single-shot Ellipsometry of Shocked Iron to 275 GPa
Abstract not provided.
Experimental Platform Development for Studying Vacuum Power Flow Physics at the Sandia Z Accelerator
Abstract not provided.
Z Pulse Shaping for Dynamic Materials Characterization Experiments
Abstract not provided.
Zero to 1,600 m/s in 40 microns: Sensitive pulse shaping for materials characterization on Z
Procedia Engineering
Dynamic materials properties experiments on Sandia National Laboratories Z Machine require increasingly precise electrical current pulse shaping. In the experiment described here, a copper flyer plate is accelerated from rest to 1,600 m/s over a 40 micron flight gap in 50 ns. This flyer then impacts a cerium sample, shock melting the cerium, before subsequent quasi-isentropic ramping to mega-bar pressures. Through predictive simulations, postdicted analysis, and a new computational tool for characterizing inherent Z Machine timing accuracy, qualitative estimates of pulse controllability and experimental design robustness are arrived upon.
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