Shuanggui Li scite author profile

Shuanggui Li

5Publications

46Citation Statements Received

31Citation Statements Given

How they've been cited

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Affiliations

Sinopec (China), Institute of Applied Physics and Computational Mathematics, China National Petroleum Corporation (China)

Publications

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Two-photon group radiation transfer study in low-density foam cylinder

et al. 2006

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Radiation transfer in low-density foam is influenced by the external radiation field which impacts on the foam when the size of plasma created in laboratory is not large to be opatical thick. The radiation transfers of different photon groups are sensitive probes of the conditions of the medium through which they propagate. The temporal behavior of photon groups to which the plasma is optical thin is quite different from that of photon groups to which the plasma is optical thick. The breakout times of different photon groups through the foam are distinguishable different in experiment when we measures them at the end of foam. The multi-group supersonic radiation transfer behavior in low-density foam is studied both by multi-group transfer numerical simulation and experiments. Two characteristic photon groups are chosen to do experimental research on the multi-group transfer behavior in low-density CH foam. A time-resolved chromatic streaked X-ray spectrometer measure the breakout of the two photon group from the far end of the foam cylinder. The distinguishable transfer time delay between two groups is observed.

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An Essentially Implicit Monte Carlo Method for Radiative Transfer Equations

Shi

Yong

et al. 2019

Journal of Computational and Theoretical Transport

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Beneficial effect of CH foam coating on x-ray emission from laser-irradiated high-Z material

Yan¹,

Zhu²,

Li³

et al. 2011

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Laser-irradiated Au layer with CH foam coating is investigated numerically. It is found that when coated with under-critical density CH foam more thermal radiation is produced, while less radiation is produced when coated with over-critical density CH foam. The under-critical density CH foam coating, which is heated supersonically and volumetrically by lasers, hampers the expansion of high-Z plasma and helps increase the density and temperature of Au plasma in the radiation zone. It is a practical and simple way to increase the laser x-ray conversion efficiency of hohlraum by coated with low-Z foam of under-critical density. This idea is tested with an experiment in an analogous geometry. The line emission from laser-irradiated Ti layer coated with CH foam was measured, and the increment of x-ray when coated with under-critical density CH foam was found.

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Numerical simulation for erosion effects of three-phase flow containing sulfur particles on elbows in high sour gas fields

et al. 2018

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Numerical Simulation on Laser Fusion in China

Pei¹,

Yan²,

Gu³

et al. 2009

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Numerical simulation is a powerful tool to get insight into the physics of laser fusion. Much effort has been devoted to develop the numerical simulation code series named LARED in China. The code series LARED are composed of six parts and enable us to have the simulation capability for the key processes in laser fusion. In recent years, a number of numerical simulations using LARED have been carried out and the simulation is checked by experiments done at the laser facility SG-II and SG-III prototype. In the present talk, some details of LARED code series will be introduced, and some simulation results, especially recent work on the opacities, will be shown.

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Shuanggui Li

Two-photon group radiation transfer study in low-density foam cylinder

An Essentially Implicit Monte Carlo Method for Radiative Transfer Equations

Beneficial effect of CH foam coating on x-ray emission from laser-irradiated high-Z material

Numerical simulation for erosion effects of three-phase flow containing sulfur particles on elbows in high sour gas fields

Numerical Simulation on Laser Fusion in China

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