# Nuclear probes of an out-of-equilibrium plasma at the highest   compression

**Authors:** G. Zhang, M. Huang, A. Bonasera, Y.G. Ma, B.F. Shen, H.W. Wang, W.P., Wang, J.C. Xu, G.T. Fan, H.J. Fu, H. Xue, H. Zheng, L.X. Liu, S. Zhang, W.J., Li, X.G. Cao, X.G. Deng, X.Y. Li, Y.C. Liu, Y. Yu, Y. Zhang, C.B. Fu, X.P., Zhang

arXiv: 1812.06868 · 2019-05-27

## TL;DR

This paper reports the achievement of the highest laboratory plasma compression using laser beams, with detailed measurements of density, nuclear reactions, and plasma lifetime, advancing understanding of high-density plasma physics.

## Contribution

It introduces new measurements of extreme plasma compression and nuclear reaction dynamics at the SGII-Up facility, demonstrating unprecedented plasma densities and reaction behaviors.

## Key findings

- Deuterium density of 2.0 ± 0.9 kg/cm³ achieved
- Highest areal density of 4.8 ± 1.5 g/cm² measured
- Plasma lifetime estimated at 52 ± 9 ps

## Abstract

We report the highest compression reached in laboratory plasmas using eight laser beams, E$_{laser}$$\approx$12 kJ, $\tau_{laser}$=2 ns in third harmonic on a CD$_2$ target at the ShenGuang-II Upgrade (SGII-Up) facility in Shanghai, China. We estimate the deuterium density $\rho_D$= 2.0 $\pm$ 0.9 kg/cm$^{3}$, and the average kinetic energy of the plasma ions less than 1 keV. The highest reached areal density $\Lambda \rho_{D}$=4.8 $\pm$ 1.5 g/cm$^{2}$ was obtained from the measured ratio of the sequential ternary fusion reactions (dd$\rightarrow$t+p and t+d$\rightarrow$$\alpha$+n) and the two body reaction fusions (dd$\rightarrow$$^3$He+n). At such high densities, sequential ternary and also quaternary nuclear reactions become important as well (i.e. n(14.1 MeV) + $^{12}$C $\rightarrow$ n'+$^{12}$C* etc.) resulting in a shift of the neutron (and proton) kinetic energies from their birth values. The Down Scatter Ratio (DSR-quaternary nuclear reactions) method, i.e. the ratio of the 10-12MeV neutrons divided by the total number of 14.1MeV neutrons produced, confirms the high densities reported above. The estimated lifetime of the highly compressed plasma is 52 $\pm$ 9 ps, much smaller than the lasers pulse duration.

## Full text

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## Figures

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## References

51 references — full list in the complete paper: https://tomesphere.com/paper/1812.06868/full.md

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Source: https://tomesphere.com/paper/1812.06868