Study of Stark broadening of krypton helium-β lines and estimation of electron density and temperature in NIF compressed capsules

K. W. Hill; L. Gao; B. F. Kraus; M. Bitter; P. C. Efthimion; N. Pablant; M. B. Schneider; D. B. Thorn; H. Chen; R. L. Kauffman; D. A. Liedahl; M. J. MacDonald; A. G. MacPhee; H. A. Scott; S. Stoupin; R. Doron; E. Stambulchik; Y. Maron; B. Lahmann

doi:10.1088/1361-6587/ac9017

Study of Stark broadening of krypton helium-β lines and estimation of electron density and temperature in NIF compressed capsules

K. W. Hill, L. Gao, B. F. Kraus, M. Bitter, P. C. Efthimion, N. Pablant, M. B. Schneider, D. B. Thorn, H. Chen, R. L. Kauffman, D. A. Liedahl, M. J. MacDonald, A. G. MacPhee, H. A. Scott, S. Stoupin, R. Doron, E. Stambulchik, Y. Maron, B. Lahmann

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2 Scopus citations

Abstract

The National Ignition Facility (NIF) diagnostic instrument manipulator (DIM) - based high resolution (dHIRES) x-ray spectrometer was used to measure the time evolution of the electron density (n _e) and temperature (T _e) in the hot spot of four NIF compressed capsules with 25 ps time resolution during the ‘stagnation’ phase. The electron density was inferred by comparing the measured Stark broadening of the krypton (Kr) Heβ spectral complex with theoretical calculations that include ion dynamic effects, and the electron temperature was inferred by comparing the measured ratio of the intensity of a dielectronically excited Li-like Kr line to the intensity of the Kr Heβ resonance line with calculations using the spectroscopic collisional radiative atomic model (SCRAM) and CRETIN collisional-radiative models. The inferred, time averaged n _e values mainly agree with n _e values from neutron diagnostics within uncertainties, but the neutron time-of-flight values of T _ion are consistently higher than dHIRES T _e values by 200-700 eV. The dHIRES measurements and measurement techniques, method of uncertainty analysis, and discussion of comparisons with measurements from neutron diagnostics are presented.

Original language	English (US)
Article number	105025
Journal	Plasma Physics and Controlled Fusion
Volume	64
Issue number	10
DOIs	https://doi.org/10.1088/1361-6587/ac9017
State	Published - Oct 2022

All Science Journal Classification (ASJC) codes

Nuclear Energy and Engineering
Condensed Matter Physics

Keywords

inertial confinement fusion
plasma parameters
spectroscopy
x-ray

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10.1088/1361-6587/ac9017

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Hill, K. W., Gao, L., Kraus, B. F., Bitter, M., Efthimion, P. C., Pablant, N., Schneider, M. B., Thorn, D. B., Chen, H., Kauffman, R. L., Liedahl, D. A., MacDonald, M. J., MacPhee, A. G., Scott, H. A., Stoupin, S., Doron, R., Stambulchik, E., Maron, Y., & Lahmann, B. (2022). Study of Stark broadening of krypton helium-β lines and estimation of electron density and temperature in NIF compressed capsules. Plasma Physics and Controlled Fusion, 64(10), Article 105025. https://doi.org/10.1088/1361-6587/ac9017

@article{14c4f4dafe8f4a5b993daea9a8c7842f,

title = "Study of Stark broadening of krypton helium-β lines and estimation of electron density and temperature in NIF compressed capsules",

abstract = "The National Ignition Facility (NIF) diagnostic instrument manipulator (DIM) - based high resolution (dHIRES) x-ray spectrometer was used to measure the time evolution of the electron density (n e) and temperature (T e) in the hot spot of four NIF compressed capsules with 25 ps time resolution during the {\textquoteleft}stagnation{\textquoteright} phase. The electron density was inferred by comparing the measured Stark broadening of the krypton (Kr) Heβ spectral complex with theoretical calculations that include ion dynamic effects, and the electron temperature was inferred by comparing the measured ratio of the intensity of a dielectronically excited Li-like Kr line to the intensity of the Kr Heβ resonance line with calculations using the spectroscopic collisional radiative atomic model (SCRAM) and CRETIN collisional-radiative models. The inferred, time averaged n e values mainly agree with n e values from neutron diagnostics within uncertainties, but the neutron time-of-flight values of T ion are consistently higher than dHIRES T e values by 200-700 eV. The dHIRES measurements and measurement techniques, method of uncertainty analysis, and discussion of comparisons with measurements from neutron diagnostics are presented.",

keywords = "inertial confinement fusion, plasma parameters, spectroscopy, x-ray",

author = "Hill, \{K. W.\} and L. Gao and Kraus, \{B. F.\} and M. Bitter and Efthimion, \{P. C.\} and N. Pablant and Schneider, \{M. B.\} and Thorn, \{D. B.\} and H. Chen and Kauffman, \{R. L.\} and Liedahl, \{D. A.\} and MacDonald, \{M. J.\} and MacPhee, \{A. G.\} and Scott, \{H. A.\} and S. Stoupin and R. Doron and E. Stambulchik and Y. Maron and B. Lahmann",

note = "Publisher Copyright: {\textcopyright} 2022 IOP Publishing Ltd.",

year = "2022",

month = oct,

doi = "10.1088/1361-6587/ac9017",

language = "English (US)",

volume = "64",

journal = "Plasma Physics and Controlled Fusion",

issn = "0741-3335",

publisher = "IOP Publishing Ltd.",

number = "10",

}

Hill, KW, Gao, L , Kraus, BF, Bitter, M, Efthimion, PC , Pablant, N, Schneider, MB, Thorn, DB, Chen, H, Kauffman, RL, Liedahl, DA, MacDonald, MJ, MacPhee, AG, Scott, HA, Stoupin, S, Doron, R, Stambulchik, E, Maron, Y & Lahmann, B 2022, 'Study of Stark broadening of krypton helium-β lines and estimation of electron density and temperature in NIF compressed capsules', Plasma Physics and Controlled Fusion, vol. 64, no. 10, 105025. https://doi.org/10.1088/1361-6587/ac9017

TY - JOUR

T1 - Study of Stark broadening of krypton helium-β lines and estimation of electron density and temperature in NIF compressed capsules

AU - Hill, K. W.

AU - Gao, L.

AU - Kraus, B. F.

AU - Bitter, M.

AU - Efthimion, P. C.

AU - Pablant, N.

AU - Schneider, M. B.

AU - Thorn, D. B.

AU - Chen, H.

AU - Kauffman, R. L.

AU - Liedahl, D. A.

AU - MacDonald, M. J.

AU - MacPhee, A. G.

AU - Scott, H. A.

AU - Stoupin, S.

AU - Doron, R.

AU - Stambulchik, E.

AU - Maron, Y.

AU - Lahmann, B.

PY - 2022/10

Y1 - 2022/10

N2 - The National Ignition Facility (NIF) diagnostic instrument manipulator (DIM) - based high resolution (dHIRES) x-ray spectrometer was used to measure the time evolution of the electron density (n e) and temperature (T e) in the hot spot of four NIF compressed capsules with 25 ps time resolution during the ‘stagnation’ phase. The electron density was inferred by comparing the measured Stark broadening of the krypton (Kr) Heβ spectral complex with theoretical calculations that include ion dynamic effects, and the electron temperature was inferred by comparing the measured ratio of the intensity of a dielectronically excited Li-like Kr line to the intensity of the Kr Heβ resonance line with calculations using the spectroscopic collisional radiative atomic model (SCRAM) and CRETIN collisional-radiative models. The inferred, time averaged n e values mainly agree with n e values from neutron diagnostics within uncertainties, but the neutron time-of-flight values of T ion are consistently higher than dHIRES T e values by 200-700 eV. The dHIRES measurements and measurement techniques, method of uncertainty analysis, and discussion of comparisons with measurements from neutron diagnostics are presented.

AB - The National Ignition Facility (NIF) diagnostic instrument manipulator (DIM) - based high resolution (dHIRES) x-ray spectrometer was used to measure the time evolution of the electron density (n e) and temperature (T e) in the hot spot of four NIF compressed capsules with 25 ps time resolution during the ‘stagnation’ phase. The electron density was inferred by comparing the measured Stark broadening of the krypton (Kr) Heβ spectral complex with theoretical calculations that include ion dynamic effects, and the electron temperature was inferred by comparing the measured ratio of the intensity of a dielectronically excited Li-like Kr line to the intensity of the Kr Heβ resonance line with calculations using the spectroscopic collisional radiative atomic model (SCRAM) and CRETIN collisional-radiative models. The inferred, time averaged n e values mainly agree with n e values from neutron diagnostics within uncertainties, but the neutron time-of-flight values of T ion are consistently higher than dHIRES T e values by 200-700 eV. The dHIRES measurements and measurement techniques, method of uncertainty analysis, and discussion of comparisons with measurements from neutron diagnostics are presented.

KW - inertial confinement fusion

KW - plasma parameters

KW - spectroscopy

KW - x-ray

UR - https://www.scopus.com/pages/publications/85139224528

UR - https://www.scopus.com/inward/citedby.url?scp=85139224528&partnerID=8YFLogxK

U2 - 10.1088/1361-6587/ac9017

DO - 10.1088/1361-6587/ac9017

M3 - Article

AN - SCOPUS:85139224528

SN - 0741-3335

VL - 64

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

IS - 10

M1 - 105025

ER -

Study of Stark broadening of krypton helium-β lines and estimation of electron density and temperature in NIF compressed capsules

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