A Statistical Method of Nanosecond, Low-Temperature Optical Pyrometry for Dynamic Compression Experiments
ORAL
Abstract
Dynamic compression experiments use streaked optical pyrometry to measure the temperature of heated materials due to compression, assuming they behave like black (or grey) bodies. For very low temperature targets (<5000 K), few photons are captured by a streak camera with a typical sweep time window (27 to 50 ns). The histogram of the resulting image resembles a slightly distorted Gaussian, very close to the Gaussian histogram of the background signal. A statistical method is developed to extract temperature information from such histograms and is applied to silicon ramp-compression experiments. This material is based upon work supported by the Department of Energy National Nuclear Security Administration under Award Number DE-NA0003856.
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Presenters
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Xuchen Gong
Lab for Laser Energetics
Authors
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Xuchen Gong
Lab for Laser Energetics
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Michelle C Marshall
University of Rochester
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Mary Kate Ginnane
University of Rochester
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Brian Henderson
University of Rochester
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Steven T Ivancic
Lab for Laser Energetics
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Robert Boni
Lab for Laser Energetics
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Ryan Rygg
University of Rochester
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Gilbert W Collins
University of Rochester, Department of Mechanical Engineering, University of Rochester, Rochester, NY, USA. Laboratory for Laser Energetics, Rochester, NY, USA. Department of Physics and Astronomy,