Angular radiation temperature simulation for time-dependent capsule drive prediction in inertial confinement fusion

The x-ray drive on a capsule in an inertial confinement fusion setup is crucial for ignition. Unfortunately, a direct measurement has not been possible so far. We propose an angular radiation temperature simulation to predict the time-dependent drive on the capsule. A simple model, based on the view...

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Veröffentlicht in:	Physics of plasmas 2015-02, Vol.22 (2)
Hauptverfasser:	Jing, Longfei, Jiang, Shaoen, Yang, Dong, Li, Hang, Zhang, Lu, Lin, Zhiwei, Li, Liling, Kuang, Longyu, Huang, Yunbao, Ding, Yongkun
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Sprache:	eng
Schlagworte:	70 PLASMA PHYSICS AND FUSION TECHNOLOGY ALBEDO CAPSULES Computer simulation Diagnostic systems Entrances EXPERIMENTAL DATA INERTIAL CONFINEMENT Inertial confinement fusion LASERS Mathematical models Plasma physics RADIANT HEAT TRANSFER SIMULATION TARGET CHAMBERS Temperature TEMPERATURE DEPENDENCE THERMONUCLEAR IGNITION TIME DEPENDENCE X RADIATION
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creator	Jing, Longfei Jiang, Shaoen Yang, Dong Li, Hang Zhang, Lu Lin, Zhiwei Li, Liling Kuang, Longyu Huang, Yunbao Ding, Yongkun
description	The x-ray drive on a capsule in an inertial confinement fusion setup is crucial for ignition. Unfortunately, a direct measurement has not been possible so far. We propose an angular radiation temperature simulation to predict the time-dependent drive on the capsule. A simple model, based on the view-factor method for the simulation of the radiation temperature, is presented and compared with the experimental data obtained using the OMEGA laser facility and the simulation results acquired with VISRAD code. We found a good agreement between the time-dependent measurements and the simulation results obtained using this model. The validated model was then used to analyze the experimental results from the Shenguang-III prototype laser facility. More specifically, the variations of the peak radiation temperatures at different view angles with the albedo of the hohlraum, the motion of the laser spots, the closure of the laser entrance holes, and the deviation of the laser power were investigated. Furthermore, the time-dependent radiation temperature at different orientations and the drive history on the capsule were calculated. The results indicate that the radiation temperature from “U20W112” (named according to the diagnostic hole ID on the target chamber) can be used to approximately predict the drive temperature on the capsule. In addition, the influence of the capsule on the peak radiation temperature is also presented.
doi_str_mv	10.1063/1.4908276
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Unfortunately, a direct measurement has not been possible so far. We propose an angular radiation temperature simulation to predict the time-dependent drive on the capsule. A simple model, based on the view-factor method for the simulation of the radiation temperature, is presented and compared with the experimental data obtained using the OMEGA laser facility and the simulation results acquired with VISRAD code. We found a good agreement between the time-dependent measurements and the simulation results obtained using this model. The validated model was then used to analyze the experimental results from the Shenguang-III prototype laser facility. More specifically, the variations of the peak radiation temperatures at different view angles with the albedo of the hohlraum, the motion of the laser spots, the closure of the laser entrance holes, and the deviation of the laser power were investigated. Furthermore, the time-dependent radiation temperature at different orientations and the drive history on the capsule were calculated. The results indicate that the radiation temperature from “U20W112” (named according to the diagnostic hole ID on the target chamber) can be used to approximately predict the drive temperature on the capsule. 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subjects	70 PLASMA PHYSICS AND FUSION TECHNOLOGY ALBEDO CAPSULES Computer simulation Diagnostic systems Entrances EXPERIMENTAL DATA INERTIAL CONFINEMENT Inertial confinement fusion LASERS Mathematical models Plasma physics RADIANT HEAT TRANSFER SIMULATION TARGET CHAMBERS Temperature TEMPERATURE DEPENDENCE THERMONUCLEAR IGNITION TIME DEPENDENCE X RADIATION
title	Angular radiation temperature simulation for time-dependent capsule drive prediction in inertial confinement fusion
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