Enhanced direct-drive implosion performance on NIF with wavelength separation

A. B. Zylstra; C. Yeamans; S. Le Pape; A. Mackinnon; M. Hohenberger; D. N. Fittinghoff; H. Herrmann; Y. Kim; P. B. Radha; P. W. McKenty; R. S. Craxton; M. Hoppe

doi:10.1063/5.0021015

Enhanced direct-drive implosion performance on NIF with wavelength separation

A. B. Zylstra
, C. Yeamans
, S. Le Pape
, A. Mackinnon
, M. Hohenberger
, D. N. Fittinghoff
, H. Herrmann
, Y. Kim
, P. B. Radha
, P. W. McKenty
, R. S. Craxton
, M. Hoppe

Lawrence Livermore National Laboratory
MST-8, Los Alamos National Laboratory
University of Rochester Laboratory for Laser Energetics
General Atomics

Research output: Contribution to journal › Article › peer-review

Abstract

Cross-beam energy transfer (CBET) can significantly affect the energy coupling and symmetry of direct-drive implosions. We report on a series of direct-drive shots with 2.1 mm outer diameter capsules conducted on NIF for diagnostic development and calibration in which the wavelength separation (Δ λ) between the inner and outer cone beams was varied. We observe a strong improvement in performance as Δ λ is applied, with the nuclear yield increasing by up to a factor of 4 ×. Other data including the nuclear bang time and implosion symmetry suggest that increasing Δ λ suppresses CBET and improves both the energy coupling and drive symmetry. These results provide a strong and important benchmark for CBET models applicable to direct-drive ignition designs.

Original language	English
Article number	124501
Journal	Physics of Plasmas
Volume	27
Issue number	12
DOIs	https://doi.org/10.1063/5.0021015
Publication status	Published - 1 Dec 2020

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title = "Enhanced direct-drive implosion performance on NIF with wavelength separation",

abstract = "Cross-beam energy transfer (CBET) can significantly affect the energy coupling and symmetry of direct-drive implosions. We report on a series of direct-drive shots with 2.1 mm outer diameter capsules conducted on NIF for diagnostic development and calibration in which the wavelength separation (Δ λ) between the inner and outer cone beams was varied. We observe a strong improvement in performance as Δ λ is applied, with the nuclear yield increasing by up to a factor of 4 ×. Other data including the nuclear bang time and implosion symmetry suggest that increasing Δ λ suppresses CBET and improves both the energy coupling and drive symmetry. These results provide a strong and important benchmark for CBET models applicable to direct-drive ignition designs.",

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doi = "10.1063/5.0021015",

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TY - JOUR

T1 - Enhanced direct-drive implosion performance on NIF with wavelength separation

AU - Zylstra, A. B.

AU - Yeamans, C.

AU - Le Pape, S.

AU - Mackinnon, A.

AU - Hohenberger, M.

AU - Fittinghoff, D. N.

AU - Herrmann, H.

AU - Kim, Y.

AU - Radha, P. B.

AU - McKenty, P. W.

AU - Craxton, R. S.

AU - Hoppe, M.

PY - 2020/12/1

Y1 - 2020/12/1

N2 - Cross-beam energy transfer (CBET) can significantly affect the energy coupling and symmetry of direct-drive implosions. We report on a series of direct-drive shots with 2.1 mm outer diameter capsules conducted on NIF for diagnostic development and calibration in which the wavelength separation (Δ λ) between the inner and outer cone beams was varied. We observe a strong improvement in performance as Δ λ is applied, with the nuclear yield increasing by up to a factor of 4 ×. Other data including the nuclear bang time and implosion symmetry suggest that increasing Δ λ suppresses CBET and improves both the energy coupling and drive symmetry. These results provide a strong and important benchmark for CBET models applicable to direct-drive ignition designs.

AB - Cross-beam energy transfer (CBET) can significantly affect the energy coupling and symmetry of direct-drive implosions. We report on a series of direct-drive shots with 2.1 mm outer diameter capsules conducted on NIF for diagnostic development and calibration in which the wavelength separation (Δ λ) between the inner and outer cone beams was varied. We observe a strong improvement in performance as Δ λ is applied, with the nuclear yield increasing by up to a factor of 4 ×. Other data including the nuclear bang time and implosion symmetry suggest that increasing Δ λ suppresses CBET and improves both the energy coupling and drive symmetry. These results provide a strong and important benchmark for CBET models applicable to direct-drive ignition designs.

UR - https://www.scopus.com/pages/publications/85097610320

U2 - 10.1063/5.0021015

DO - 10.1063/5.0021015

M3 - Article

AN - SCOPUS:85097610320

SN - 1070-664X

VL - 27

JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 12

M1 - 124501

ER -

Enhanced direct-drive implosion performance on NIF with wavelength separation

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