High-adiabat high-foot inertial confinement fusion implosion experiments on the national ignition facility

H. S. Park; O. A. Hurricane; D. A. Callahan; D. T. Casey; E. L. Dewald; T. R. Dittrich; T. Döppner; D. E. Hinkel; L. F. Berzak Hopkins; S. Le Pape; T. Ma; P. K. Patel; B. A. Remington; H. F. Robey; J. D. Salmonson; J. L. Kline

doi:10.1103/PhysRevLett.112.055001

High-adiabat high-foot inertial confinement fusion implosion experiments on the national ignition facility

H. S. Park
, O. A. Hurricane
, D. A. Callahan
, D. T. Casey
, E. L. Dewald
, T. R. Dittrich
, T. Döppner
, D. E. Hinkel
, L. F. Berzak Hopkins
, S. Le Pape
, T. Ma
, P. K. Patel
, B. A. Remington
, H. F. Robey
, J. D. Salmonson
, J. L. Kline

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

Abstract

This Letter reports on a series of high-adiabat implosions of cryogenic layered deuterium-tritium (DT) capsules indirectly driven by a "high-foot" laser drive pulse at the National Ignition Facility. High-foot implosions have high ablation velocities and large density gradient scale lengths and are more resistant to ablation-front Rayleigh-Taylor instability induced mixing of ablator material into the DT hot spot. Indeed, the observed hot spot mix in these implosions was low and the measured neutron yields were typically 50% (or higher) of the yields predicted by simulation. On one high performing shot (N130812), 1.7 MJ of laser energy at a peak power of 350 TW was used to obtain a peak hohlraum radiation temperature of ∼300 eV. The resulting experimental neutron yield was (2.4±0.05)×1015 DT, the fuel ρR was (0.86±0.063) g/cm2, and the measured Tion was (4.2±0.16) keV, corresponding to 8 kJ of fusion yield, with ∼1/3 of the yield caused by self-heating of the fuel by α particles emitted in the initial reactions. The generalized Lawson criteria, an ignition metric, was 0.43 and the neutron yield was ∼70% of the value predicted by simulations that include α-particle self-heating.

Original language	English
Article number	055001
Journal	Physical Review Letters
Volume	112
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevLett.112.055001
Publication status	Published - 5 Feb 2014
Externally published	Yes

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Park, H. S., Hurricane, O. A., Callahan, D. A., Casey, D. T., Dewald, E. L., Dittrich, T. R., Döppner, T., Hinkel, D. E., Berzak Hopkins, L. F., Le Pape, S., Ma, T., Patel, P. K., Remington, B. A., Robey, H. F., Salmonson, J. D., & Kline, J. L. (2014). High-adiabat high-foot inertial confinement fusion implosion experiments on the national ignition facility. Physical Review Letters, 112(5), Article 055001. https://doi.org/10.1103/PhysRevLett.112.055001

@article{50b2aa05f93149b995a4e57cecdfbb4c,

title = "High-adiabat high-foot inertial confinement fusion implosion experiments on the national ignition facility",

abstract = "This Letter reports on a series of high-adiabat implosions of cryogenic layered deuterium-tritium (DT) capsules indirectly driven by a {"}high-foot{"} laser drive pulse at the National Ignition Facility. High-foot implosions have high ablation velocities and large density gradient scale lengths and are more resistant to ablation-front Rayleigh-Taylor instability induced mixing of ablator material into the DT hot spot. Indeed, the observed hot spot mix in these implosions was low and the measured neutron yields were typically 50\% (or higher) of the yields predicted by simulation. On one high performing shot (N130812), 1.7 MJ of laser energy at a peak power of 350 TW was used to obtain a peak hohlraum radiation temperature of ∼300 eV. The resulting experimental neutron yield was (2.4±0.05)×1015 DT, the fuel ρR was (0.86±0.063) g/cm2, and the measured Tion was (4.2±0.16) keV, corresponding to 8 kJ of fusion yield, with ∼1/3 of the yield caused by self-heating of the fuel by α particles emitted in the initial reactions. The generalized Lawson criteria, an ignition metric, was 0.43 and the neutron yield was ∼70\% of the value predicted by simulations that include α-particle self-heating.",

author = "Park, \{H. S.\} and Hurricane, \{O. A.\} and Callahan, \{D. A.\} and Casey, \{D. T.\} and Dewald, \{E. L.\} and Dittrich, \{T. R.\} and T. D{\"o}ppner and Hinkel, \{D. E.\} and \{Berzak Hopkins\}, \{L. F.\} and \{Le Pape\}, S. and T. Ma and Patel, \{P. K.\} and Remington, \{B. A.\} and Robey, \{H. F.\} and Salmonson, \{J. D.\} and Kline, \{J. L.\}",

year = "2014",

month = feb,

day = "5",

doi = "10.1103/PhysRevLett.112.055001",

language = "English",

volume = "112",

journal = "Physical Review Letters",

issn = "0031-9007",

number = "5",

}

Park, HS, Hurricane, OA, Callahan, DA, Casey, DT, Dewald, EL, Dittrich, TR, Döppner, T, Hinkel, DE, Berzak Hopkins, LF, Le Pape, S, Ma, T, Patel, PK, Remington, BA, Robey, HF, Salmonson, JD & Kline, JL 2014, 'High-adiabat high-foot inertial confinement fusion implosion experiments on the national ignition facility', Physical Review Letters, vol. 112, no. 5, 055001. https://doi.org/10.1103/PhysRevLett.112.055001

TY - JOUR

T1 - High-adiabat high-foot inertial confinement fusion implosion experiments on the national ignition facility

AU - Park, H. S.

AU - Hurricane, O. A.

AU - Callahan, D. A.

AU - Casey, D. T.

AU - Dewald, E. L.

AU - Dittrich, T. R.

AU - Döppner, T.

AU - Hinkel, D. E.

AU - Berzak Hopkins, L. F.

AU - Le Pape, S.

AU - Ma, T.

AU - Patel, P. K.

AU - Remington, B. A.

AU - Robey, H. F.

AU - Salmonson, J. D.

AU - Kline, J. L.

PY - 2014/2/5

Y1 - 2014/2/5

N2 - This Letter reports on a series of high-adiabat implosions of cryogenic layered deuterium-tritium (DT) capsules indirectly driven by a "high-foot" laser drive pulse at the National Ignition Facility. High-foot implosions have high ablation velocities and large density gradient scale lengths and are more resistant to ablation-front Rayleigh-Taylor instability induced mixing of ablator material into the DT hot spot. Indeed, the observed hot spot mix in these implosions was low and the measured neutron yields were typically 50% (or higher) of the yields predicted by simulation. On one high performing shot (N130812), 1.7 MJ of laser energy at a peak power of 350 TW was used to obtain a peak hohlraum radiation temperature of ∼300 eV. The resulting experimental neutron yield was (2.4±0.05)×1015 DT, the fuel ρR was (0.86±0.063) g/cm2, and the measured Tion was (4.2±0.16) keV, corresponding to 8 kJ of fusion yield, with ∼1/3 of the yield caused by self-heating of the fuel by α particles emitted in the initial reactions. The generalized Lawson criteria, an ignition metric, was 0.43 and the neutron yield was ∼70% of the value predicted by simulations that include α-particle self-heating.

AB - This Letter reports on a series of high-adiabat implosions of cryogenic layered deuterium-tritium (DT) capsules indirectly driven by a "high-foot" laser drive pulse at the National Ignition Facility. High-foot implosions have high ablation velocities and large density gradient scale lengths and are more resistant to ablation-front Rayleigh-Taylor instability induced mixing of ablator material into the DT hot spot. Indeed, the observed hot spot mix in these implosions was low and the measured neutron yields were typically 50% (or higher) of the yields predicted by simulation. On one high performing shot (N130812), 1.7 MJ of laser energy at a peak power of 350 TW was used to obtain a peak hohlraum radiation temperature of ∼300 eV. The resulting experimental neutron yield was (2.4±0.05)×1015 DT, the fuel ρR was (0.86±0.063) g/cm2, and the measured Tion was (4.2±0.16) keV, corresponding to 8 kJ of fusion yield, with ∼1/3 of the yield caused by self-heating of the fuel by α particles emitted in the initial reactions. The generalized Lawson criteria, an ignition metric, was 0.43 and the neutron yield was ∼70% of the value predicted by simulations that include α-particle self-heating.

U2 - 10.1103/PhysRevLett.112.055001

DO - 10.1103/PhysRevLett.112.055001

M3 - Article

AN - SCOPUS:84894256512

SN - 0031-9007

VL - 112

JO - Physical Review Letters

JF - Physical Review Letters

IS - 5

M1 - 055001

ER -

High-adiabat high-foot inertial confinement fusion implosion experiments on the national ignition facility

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