Time-dependent electron temperature diagnostics for high-power, aluminum z-pinch plasmas Article Swipe

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Plasma Electron temperature Z-pinch Plasma diagnostics Atomic physics Pinch Electron Spectral line Core (optical fiber) Halo Temperature measurement Physics Materials science Optics Nuclear physics Astrophysics Galaxy Astronomy Quantum mechanics

T.W.L. Sanford , T. J. Nash , R. C. Mock ·

YOU? · · 1996 · Open Access · · DOI: https://doi.org/10.2172/244618 · OA: W1990394411

Time-resolved x-ray pinhole photographs and time-integrated radially-resolved x-ray crystal spectrometer measurements of azimuthally-symmetric aluminum-wire implosions suggest that the final pinch is composed of a hot dense plasma core surrounded by a cooler plasma halo. The slope of the free-bound x-ray continuum measured using filtered photoconducting diodes, provides a time-resolved, model-independent diagnostic of the core electron temperature. A simultaneous measurement of the time-resolved K-shell line spectra provides a diagnostic to indirectly measure the electron temperature of the plasma halo. Together, measurements from the two diagnostics lend support to a picture that also emerges from a 1-D Rad-Hydro model; namely, that of a plasma whose thermalization on axis produces steep radial gradients in temperature, where the temperatures are substantially in excess of a kilovolt in the core and below a kilovolt in the surrounding plasma halo.