Double planar wire array as a compact plasma radiation source

V. L. Kantsyrev; L. I. Rudakov; A. S. Safronova; A. A. Esaulov; A. S. Chuvatin; C. A. Coverdale; C. Deeney; K. M. Williamson; M. F. Yilmaz; I. Shrestha; N. D. Ouart; G. C. Osborne

doi:10.1063/1.2896577

Double planar wire array as a compact plasma radiation source

V. L. Kantsyrev
, L. I. Rudakov
, A. S. Safronova
, A. A. Esaulov
, A. S. Chuvatin
, C. A. Coverdale
, C. Deeney
, K. M. Williamson
, M. F. Yilmaz
, I. Shrestha
, N. D. Ouart
, G. C. Osborne

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

Abstract

Magnetically compressed plasmas initiated by a double planar wire array (DPWA) are efficient radiation sources. The two rows in a DPWA implode independently and then merge together at stagnation producing soft x-ray yields and powers of up to 11.5 kJcm and more than 0.4 TWcm, higher than other planar arrays or low wire-number cylindrical arrays on the 1 MA Zebra generator. DPWA, where precursors form in two stages, produce a shaped radiation pulse and radiate more energy in the main burst than estimates of implosion kinetic energy. High radiation efficiency, compact size (as small as 3-5 mm wide), and pulse shaping show that the DPWA is a potential candidate for ICF and radiation physics research.

Original language	English
Article number	030704
Journal	Physics of Plasmas
Volume	15
Issue number	3
DOIs	https://doi.org/10.1063/1.2896577
Publication status	Published - 8 Apr 2008

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title = "Double planar wire array as a compact plasma radiation source",

abstract = "Magnetically compressed plasmas initiated by a double planar wire array (DPWA) are efficient radiation sources. The two rows in a DPWA implode independently and then merge together at stagnation producing soft x-ray yields and powers of up to 11.5 kJcm and more than 0.4 TWcm, higher than other planar arrays or low wire-number cylindrical arrays on the 1 MA Zebra generator. DPWA, where precursors form in two stages, produce a shaped radiation pulse and radiate more energy in the main burst than estimates of implosion kinetic energy. High radiation efficiency, compact size (as small as 3-5 mm wide), and pulse shaping show that the DPWA is a potential candidate for ICF and radiation physics research.",

author = "Kantsyrev, \{V. L.\} and Rudakov, \{L. I.\} and Safronova, \{A. S.\} and Esaulov, \{A. A.\} and Chuvatin, \{A. S.\} and Coverdale, \{C. A.\} and C. Deeney and Williamson, \{K. M.\} and Yilmaz, \{M. F.\} and I. Shrestha and Ouart, \{N. D.\} and Osborne, \{G. C.\}",

year = "2008",

month = apr,

day = "8",

doi = "10.1063/1.2896577",

language = "English",

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T1 - Double planar wire array as a compact plasma radiation source

AU - Kantsyrev, V. L.

AU - Rudakov, L. I.

AU - Safronova, A. S.

AU - Esaulov, A. A.

AU - Chuvatin, A. S.

AU - Coverdale, C. A.

AU - Deeney, C.

AU - Williamson, K. M.

AU - Yilmaz, M. F.

AU - Shrestha, I.

AU - Ouart, N. D.

AU - Osborne, G. C.

PY - 2008/4/8

Y1 - 2008/4/8

N2 - Magnetically compressed plasmas initiated by a double planar wire array (DPWA) are efficient radiation sources. The two rows in a DPWA implode independently and then merge together at stagnation producing soft x-ray yields and powers of up to 11.5 kJcm and more than 0.4 TWcm, higher than other planar arrays or low wire-number cylindrical arrays on the 1 MA Zebra generator. DPWA, where precursors form in two stages, produce a shaped radiation pulse and radiate more energy in the main burst than estimates of implosion kinetic energy. High radiation efficiency, compact size (as small as 3-5 mm wide), and pulse shaping show that the DPWA is a potential candidate for ICF and radiation physics research.

AB - Magnetically compressed plasmas initiated by a double planar wire array (DPWA) are efficient radiation sources. The two rows in a DPWA implode independently and then merge together at stagnation producing soft x-ray yields and powers of up to 11.5 kJcm and more than 0.4 TWcm, higher than other planar arrays or low wire-number cylindrical arrays on the 1 MA Zebra generator. DPWA, where precursors form in two stages, produce a shaped radiation pulse and radiate more energy in the main burst than estimates of implosion kinetic energy. High radiation efficiency, compact size (as small as 3-5 mm wide), and pulse shaping show that the DPWA is a potential candidate for ICF and radiation physics research.

U2 - 10.1063/1.2896577

DO - 10.1063/1.2896577

M3 - Article

AN - SCOPUS:41549145783

SN - 1070-664X

VL - 15

JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 3

M1 - 030704

ER -

Double planar wire array as a compact plasma radiation source

Abstract

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