On krypton-doped capsule implosion experiments at the National Ignition Facility

Hui Chen; T. Ma; R. Nora; M. A. Barrios; H. A. Scott; M. B. Schneider; L. Berzak Hopkins; D. T. Casey; B. A. Hammel; L. C. Jarrott; O. L. Landen; P. K. Patel; M. J. Rosenberg; B. K. Spears

doi:10.1063/1.4993049

On krypton-doped capsule implosion experiments at the National Ignition Facility

Hui Chen, T. Ma, R. Nora, M. A. Barrios, H. A. Scott, M. B. Schneider, L. Berzak Hopkins, D. T. Casey, B. A. Hammel, L. C. Jarrott, O. L. Landen, P. K. Patel, M. J. Rosenberg, B. K. Spears

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25 Scopus citations

Abstract

This paper presents the spectroscopic aspects of using Krypton as a dopant in NIF capsule implosions through simulation studies and the first set of NIF experiments. Using a combination of 2D hohlraum and 1D capsule simulations with comprehensive spectroscopic modeling, the calculations focused on the effect of dopant concentration on the implosion, and the impact of gradients in the electron density and temperature to the Kr line features and plasma opacity. Experimental data were obtained from three NIF Kr-dopant experiments, performed with varying Kr dopant concentrations between 0.01% and 0.03%. The implosion performance, hotspot images, and detailed Kr spectral analysis are summarized relative to the predictions. Data show that fuel-dopant spectroscopy can serve as a powerful and viable diagnostic for inertial confinement fusion implosions.

Original language	English (US)
Article number	072715
Journal	Physics of Plasmas
Volume	24
Issue number	7
DOIs	https://doi.org/10.1063/1.4993049
State	Published - Jul 1 2017
Externally published	Yes

All Science Journal Classification (ASJC) codes

Condensed Matter Physics

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Chen, H., Ma, T., Nora, R., Barrios, M. A., Scott, H. A., Schneider, M. B., Berzak Hopkins, L., Casey, D. T., Hammel, B. A., Jarrott, L. C., Landen, O. L., Patel, P. K., Rosenberg, M. J., & Spears, B. K. (2017). On krypton-doped capsule implosion experiments at the National Ignition Facility. Physics of Plasmas, 24(7), Article 072715. https://doi.org/10.1063/1.4993049

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title = "On krypton-doped capsule implosion experiments at the National Ignition Facility",

abstract = "This paper presents the spectroscopic aspects of using Krypton as a dopant in NIF capsule implosions through simulation studies and the first set of NIF experiments. Using a combination of 2D hohlraum and 1D capsule simulations with comprehensive spectroscopic modeling, the calculations focused on the effect of dopant concentration on the implosion, and the impact of gradients in the electron density and temperature to the Kr line features and plasma opacity. Experimental data were obtained from three NIF Kr-dopant experiments, performed with varying Kr dopant concentrations between 0.01\% and 0.03\%. The implosion performance, hotspot images, and detailed Kr spectral analysis are summarized relative to the predictions. Data show that fuel-dopant spectroscopy can serve as a powerful and viable diagnostic for inertial confinement fusion implosions.",

author = "Hui Chen and T. Ma and R. Nora and Barrios, \{M. A.\} and Scott, \{H. A.\} and Schneider, \{M. B.\} and \{Berzak Hopkins\}, L. and Casey, \{D. T.\} and Hammel, \{B. A.\} and Jarrott, \{L. C.\} and Landen, \{O. L.\} and Patel, \{P. K.\} and Rosenberg, \{M. J.\} and Spears, \{B. K.\}",

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doi = "10.1063/1.4993049",

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T1 - On krypton-doped capsule implosion experiments at the National Ignition Facility

AU - Chen, Hui

AU - Ma, T.

AU - Nora, R.

AU - Barrios, M. A.

AU - Scott, H. A.

AU - Schneider, M. B.

AU - Berzak Hopkins, L.

AU - Casey, D. T.

AU - Hammel, B. A.

AU - Jarrott, L. C.

AU - Landen, O. L.

AU - Patel, P. K.

AU - Rosenberg, M. J.

AU - Spears, B. K.

PY - 2017/7/1

Y1 - 2017/7/1

N2 - This paper presents the spectroscopic aspects of using Krypton as a dopant in NIF capsule implosions through simulation studies and the first set of NIF experiments. Using a combination of 2D hohlraum and 1D capsule simulations with comprehensive spectroscopic modeling, the calculations focused on the effect of dopant concentration on the implosion, and the impact of gradients in the electron density and temperature to the Kr line features and plasma opacity. Experimental data were obtained from three NIF Kr-dopant experiments, performed with varying Kr dopant concentrations between 0.01% and 0.03%. The implosion performance, hotspot images, and detailed Kr spectral analysis are summarized relative to the predictions. Data show that fuel-dopant spectroscopy can serve as a powerful and viable diagnostic for inertial confinement fusion implosions.

AB - This paper presents the spectroscopic aspects of using Krypton as a dopant in NIF capsule implosions through simulation studies and the first set of NIF experiments. Using a combination of 2D hohlraum and 1D capsule simulations with comprehensive spectroscopic modeling, the calculations focused on the effect of dopant concentration on the implosion, and the impact of gradients in the electron density and temperature to the Kr line features and plasma opacity. Experimental data were obtained from three NIF Kr-dopant experiments, performed with varying Kr dopant concentrations between 0.01% and 0.03%. The implosion performance, hotspot images, and detailed Kr spectral analysis are summarized relative to the predictions. Data show that fuel-dopant spectroscopy can serve as a powerful and viable diagnostic for inertial confinement fusion implosions.

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JO - Physics of Plasmas

JF - Physics of Plasmas

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M1 - 072715

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On krypton-doped capsule implosion experiments at the National Ignition Facility

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