Observation and modeling of interspecies ion separation in inertial confinement fusion implosions via imaging x-ray spectroscopy

Joshi, T. R.; Hakel, P.; Hsu, S. C.; Vold, Erik; Schmitt, Mark J.; Hoffman, N. M.; Rauenzahn, Rick M.; Kagan, Grigory; Tang, Xian-Zhu; Mancini, Roberto; Kim, Y.; Herrmann, H. W.

doi:10.1063/1.4978887

Cited by 17 publications

(17 citation statements)

References 46 publications

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“…The theory also predicts that the ion thermo-diffusion ratio maximizes, for a D/Ar plasma, with an Ar atomic concentration of around 1%, 34 thus motivating us to conduct experiments at and near this value. As in our previous publications, 34,35 we interpret observations of any deviation of the Ar ion number fraction from the spatially uniform target pre-fill value as proof of interspecies ion separation in the implosion core. The main objectives of this campaign were to (a) confirm the observation of interspecies ion separation reported in our previous work, (b) investigate the effect of shell-fuel mixing on the experimental inference of interspecies ion separation, (c) compare experimental observations of interspecies ion separation with radiation hydrodynamic simulations that incorporate a multi-ion-species transport model, 16,29,[36][37][38] and (d) explore the dependence of interspecies ion separation on the relative concentration of the heavier species to further validate the theory.…”

Section: Introductionsupporting

confidence: 85%

“…Thus, we had four different types of targets based on the combinations of various pressures of D 2 /Ar gas. The core fuel pressures in the targets of this campaign were higher than those in the previous campaign 34,35 with a goal of observing slightly lowertemperature and more-symmetric implosions compared to the previous campaign. Higher fill pressure for otherwise the same target and laser drive increases collisionality and suppresses the interspecies ion separation (see Appendix B).…”

Section: Experiments At Omegamentioning

confidence: 89%

“…Similarly, space-resolved spectra were extracted from the annular regions on the core images across the MMI data. 35 Figure 1(a) shows the MMI data from shot 86684 TIM 2 which consists of data recorded by four strips, and Fig. 1(b) shows the Ar Heb and Lyb narrow-band images constructed from 80 eV wide spectral ranges across the photon energies of the respective lines from the Frame-4, i.e., bottom frame.…”

Section: Experiments At Omegamentioning

confidence: 99%

“…Our earlier experimental campaign on interspecies ion separation in ICF implosions 34,35 provided direct experimental evidence for interspecies ion separation in an ICF implosion via detailed analysis of imaging x-ray spectroscopy data. In this paper, we provide the results from the analysis of imaging x-ray spectroscopy data from our second interspecies ion separation experimental campaign.…”

Section: Introductionmentioning

confidence: 99%

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Progress on observations of interspecies ion separation in inertial-confinement-fusion implosions via imaging x-ray spectroscopy

et al. 2019

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We report on the analyses of x-ray-imaging spectroscopy data from experiments to study interspecies ion separation in direct-drive inertial-confinement-fusion experiments on the Omega laser facility. This is a continuation of recent, related research [S. C. Hsu et al., Euro Phys. Lett. 115, 65001 (2016); T. R. Joshi et al., Phys. Plasmas 24, 056305 (2017)]. The targets were argon (Ar)-doped, deuterium (D2)-filled spherical plastic shells of varying D2-Ar relative and total gas pressures. We used a time- and space-integrated spectrometer, streaked crystal spectrometer, and up to three time-gated multi-monochromatic x-ray imagers (MMIs) fielded along different lines of sight to record x-ray spectral features obtained from the implosions. The MMI data were recorded between first-shock convergence and slightly before the neutron bang time. We confirm the presence of interspecies ion separation as reported in our recent work. Extensions to the previous work include (a) the inclusion of shell mix in the data analysis, which slightly changes the amount of inferred species separation, (b) observation of species separation closer to the neutron bang time, and (c) fielding of the particle x-ray temporal diagnostic (PXTD) [H. Sio et al., Rev. Sci. Instrum. 87, 11D701 (2016)] to infer the relative timing between the neutron bang time and peak x-ray emission. Experimentally inferred species separation is compared with radiation-hydrodynamic simulations that include a multi-ion-species transport model.

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Section: Introductionsupporting

confidence: 85%

Section: Experiments At Omegamentioning

confidence: 89%

Section: Experiments At Omegamentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Progress on observations of interspecies ion separation in inertial-confinement-fusion implosions via imaging x-ray spectroscopy

et al. 2019

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“…Prior experiments, simulations, and theoretical work explored multiion-species effects in the context of inertial confinement fusion (ICF), for which species separation in the fusion fuel potentially leads to neutron yield degradation [5][6][7][8][9][10][11][12][13][14][15][16][17][18]. Interspecies ion separation and velocity separation were experimentally observed [19][20][21][22][23]. Additional simulation and theoretical research on multi-ion-species plasmas examined how ion species diffusion causes species separation [24][25][26][27][28][29][30].…”

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confidence: 99%

Observation of shock-front separation in multi-ion-species collisional plasma shocks

et al. 2020

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We observe shock-front separation and species-dependent shock widths in multi-ion-species collisional plasma shocks, which are produced by obliquely merging plasma jets of a He/Ar mixture (97% He and 3% Ar by initial number density) on the Plasma Liner Experiment [S. C. Hsu et al., IEEE Trans. Plasma Sci. 46, 1951]. Visible plasma emission near the He-I 587.6-nm and Ar-II 476.5-514.5-nm lines are simultaneously recorded by splitting a single visible image of the shock into two different fast-framing cameras with different narrow bandpass filters (589 ± 5 nm for observing the He-I line and 500 ± 25 nm for the Ar-II lines). For conditions in these experiments (pre-shock ion and electron densities ≈ 5 × 10 14 cm −3 , ion and electron temperatures of ≈ 2.2 eV, and relative plasma-merging speed of 22 km/s), the observationally inferred magnitude of He/Ar shock-front separation and the shock widths themselves are < 1 cm, which correspond to ∼ 50 post-shock thermal ion-ion mean free paths. The experiments are in reasonable qualitative and quantitative agreement with results from 1D multi-fluid simulations using the chicago code. Moreover, the experiment and simulation results are consistent with first-principles theoretical predictions that the lighter He ions diffuse farther ahead within the overall shock front than the heavier Ar ions.

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Influence of coupling on thermal forces and dynamic friction in plasmas with multiple ion species

Kagan

Daligault

2017

Physics of Plasmas

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The recently proposed effective potential theory [Phys. Rev. Lett. 110, 235001 (2013)] is used to investigate the influence of coupling on inter-ion-species diffusion and momentum exchange in multi-component plasmas. Thermo-diffusion and the thermal force are found to diminish rapidly as strong coupling onsets. For the same coupling parameters, the dynamic friction coefficient is found to tend to unity. These results provide an impetus for addressing the role of coupling on diffusive processes in inertial confinement fusion experiments.

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Observation and modeling of interspecies ion separation in inertial confinement fusion implosions via imaging x-ray spectroscopy

Cited by 17 publications

References 46 publications

Progress on observations of interspecies ion separation in inertial-confinement-fusion implosions via imaging x-ray spectroscopy

Progress on observations of interspecies ion separation in inertial-confinement-fusion implosions via imaging x-ray spectroscopy

Observation of shock-front separation in multi-ion-species collisional plasma shocks

Influence of coupling on thermal forces and dynamic friction in plasmas with multiple ion species

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