A novel three-axis cylindrical hohlraum designed for inertial confinement fusion ignition

Kuang, Longyu; Li, Hang; Jing, Longfei; Zhang, Lin; Zhang, Lu; Li, Liling; Ding, Yongkun; Jiang, Shaoen; Liu, Jie; Zheng, Jian

doi:10.1038/srep34636

Cited by 18 publications

(22 citation statements)

References 33 publications

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“…Six-LEH hohlraums [13][14][15] , as shown in Figure 15, have one more rotational degree of freedom and two more laser entrance directions compared to cylindrical targets. It is very difficult to align such a hohlraum with the TAS, which is designed for use with a cylindrical hohlraum.…”

Section: Space-diagonal Rotation Sensormentioning

confidence: 99%

“…Over the past 3 years, work has shown that a spherical hohlraum with six laser entrance holes (LEHs) [13, 14] or a three-axis cylindrical hohlraum (TACH) [15] , which contains three orthogonally joined cylindrical hohlraums and six LEHs – with high symmetry on a capsule, and low possibility of plasma jet generation – seems superior to a cylindrical target. With more LEHs to be positioned and the shooting laser from six directions to be aligned, this target poses new challenges for alignment.…”

Section: Introductionmentioning

confidence: 99%

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Target alignment in the Shen-Guang II Upgrade laser facility

Ren

Shao

Zhao

et al. 2018

High Pow Laser Sci Eng

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The Shen-Guang II Upgrade (SG-II-U) laser facility consists of eight high-power nanosecond laser beams and one short-pulse picosecond petawatt laser. It is designed for the study of inertial confinement fusion (ICF), especially for conducting fast ignition (FI) research in China and other basic science experiments. To perform FI successfully with hohlraum targets containing a golden cone, the long-pulse beam and cylindrical hohlraum as well as the short-pulse beam and cone target alignment must satisfy tight specifications (30 and $20~\unicode[STIX]{x03BC}\text{m}$ rms for each case). To explore new ICF ignition targets with six laser entrance holes (LEHs), a rotation sensor was adapted to meet the requirements of a three-dimensional target and correct beam alignment. In this paper, the strategy for aligning the nanosecond beam based on target alignment sensor (TAS) is introduced and improved to meet requirements of the picosecond lasers and the new six LEHs hohlraum targets in the SG-II-U facility. The expected performance of the alignment system is presented, and the alignment error is also discussed.

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Section: Space-diagonal Rotation Sensormentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Target alignment in the Shen-Guang II Upgrade laser facility

Ren

Shao

Zhao

et al. 2018

High Pow Laser Sci Eng

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“…在最近的研究工作中我们又提出了六通柱腔 [42] (图22(a))、三轴柱腔 [43] [45] 、Au-U-Dy鸡尾酒黑腔 [46] 图 23 (网络版彩图)神光Ⅲ原型装置上的纯Au腔和UN涂层U腔X光能谱对比 [47] Figure 23 (Color online) The X-ray spectra from Au hohlraum and UN-coated DU hohlraum on SG-Ⅲ prototype [47].…”

Section: 六通柱腔和三轴柱腔unclassified

Recent progress of hohlraum physics experiments in indirect-driven ICF in China

Yang

Li³

et al. 2018

Sci. Sin.-Phys. Mech. Astron.

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“…However, the overlap and cross of laser beams may arouse nonlinear phenomena and complicated laser-plasma interaction issues [35], such as the daunting SRS and CBET. Recently, a spherical hohlraum with 6LEHs [36] and a novel hohlraum with a three-axis cylindrical hohlraum [37,38], all of which utilize a single-cone beam without any supplementary technology of beam phasing, are proposed to improve these issues, especially the propagation of the inner-cone beams. These hohlraum configurations have natural superiority in maintaining high drive symmetry during the entire capsule implosion process [37][38][39].…”

Section: Nuclear Fusionmentioning

confidence: 99%

Preliminary study on a tetrahedral hohlraum with four half-cylindrical cavities for indirectly driven inertial confinement fusion

et al. 2017

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A tetrahedral hohlraum with four half-cylindrical cavities (FHCH) is proposed to balance tradeoffs among the drive symmetry, coupling efficiency, and plasma filling of the hohlraum performance for indirectly driven inertial confinement fusion. The peak drive symmetry in the FHCH with a cavity-to-capsule ratio (CCR) of 2.2 is comparable to those in the spherical hohlraum of CCR = 4.5 with six laser entrance holes (6LEHs-Sph.) ((Lan et al 2014 Phys. Plasmas 21 010704) and three-axis cylindrical hohlraum (6LEHs-Cyls.) of CCR = 2.0 (Kuang et al 2016 Sci. Rep. 6 34636) and the filling time of plasma is close to the ones in the 6LEHs-Cyls. and the ignition target Rev5-CH of the national ignition campaign, and about half of that in the 6LEHs-Sph. In particular, the coupling efficiency is about 19% and 16% higher than those of the 6LEHs-Sph. and 6LEHs-Cyls., respectively. Besides, preliminary study indicates that the FHCH has a robust symmetry to uncertainties of power imbalance and pointing errors of laser beams. Furthermore, utilizing the FHCH, the feasibility of a tetrahedral indirect drive approach on the national ignition facility and hybrid indirect-direct drive approach with the laser arrangement designed specially for 6LEHs-Sph. or 6LEHs-Cyls., is also envisioned. Therefore, the proposed hohlraum configuration merits consideration as an alternative route to indirect-drive ignition.

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A novel three-axis cylindrical hohlraum designed for inertial confinement fusion ignition

Cited by 18 publications

References 33 publications

Target alignment in the Shen-Guang II Upgrade laser facility

Target alignment in the Shen-Guang II Upgrade laser facility

Recent progress of hohlraum physics experiments in indirect-driven ICF in China

Preliminary study on a tetrahedral hohlraum with four half-cylindrical cavities for indirectly driven inertial confinement fusion

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