A novel Thomson-scattering diagnostic with continuous angular resolution over a span of 120° was developed for the characterization of plasmas produced at the Omega Laser Facility. Spectrally resolving light scattered from electron plasma wave features as a function of emission angle provides a means to efficiently probe a large range of plasma frequencies and k vectors. Together, these spectra contain critical constraints on the plasma-physics models used to interpret the data and enable experimental measurements of the electron-velocity distribution function over several orders of magnitude without assumptions about its mathematical form. Major components of the instrument include (1) a reflective collection objective that gathers light over a range of 120° × 12°; (2) a spatial-filter image relay for measurement localization; (3) cylindrical optics for producing a line image of the collection aperture; (4) a transmission grating spectrometer; and (5) a time-gated, image-intensified camera. Thomson-scattered light collected from an 50μm3 volume of plasma is recorded with 0.8-nm spectral and 1° angular resolution. Initial experiments examined the properties of the electron-velocity distribution in gas-jet-produced plasmas in the presence of heating via inverse bremsstrahlung absorption.

1.
D. H.
Froula
,
S. H.
Glenzer
,
N. C.
Luhmann
, Jr.
, and
J.
Sheffield
,
Plasma Scattering of Electromagnetic Radiation: Theory and Measurement Techniques
, 2nd ed. (
Academic Press
,
Amsterdam
,
2011
).
2.
S. H.
Glenzer
,
C. A.
Back
,
L. J.
Suter
,
M. A.
Blain
,
O. L.
Landen
,
J. D.
Lindl
,
B. J.
MacGowan
,
G. F.
Stone
,
R. E.
Turner
, and
B. H.
Wilde
,
Phys. Rev. Lett.
79
,
1277
(
1997
).
3.
D. H.
Froula
,
J. S.
Ross
,
L.
Divol
, and
S. H.
Glenzer
,
Rev. Sci. Instrum.
77
,
10E522
(
2006
).
4.
W. E. R.
Davies
and
S. A.
Ramsden
,
Phys. Lett.
8
,
179
(
1964
).
5.
J. S.
Ross
,
S. H.
Glenzer
,
J. P.
Palastro
,
B. B.
Pollock
,
D.
Price
,
G. R.
Tynan
, and
D. H.
Froula
,
Rev. Sci. Instrum.
81
,
10D523
(
2010
).
6.
R. K.
Follett
,
J. A.
Delettrez
,
D. H.
Edgell
,
R. J.
Henchen
,
J.
Katz
,
J. F.
Myatt
, and
D. H.
Froula
,
Rev. Sci. Instrum.
87
,
11E401
(
2016
).
7.
L. G.
Suttle
,
J. D.
Hare
,
J. W. D.
Halliday
,
S.
Merlini
,
D. R.
Russell
,
E. R.
Tubman
,
V.
Valenzuela-Villaseca
,
W.
Rozmus
,
C.
Bruulsema
, and
S. V.
Lebedev
,
Rev. Sci. Instrum.
92
,
033542
(
2021
).
8.
R. J.
Henchen
,
M.
Sherlock
,
W.
Rozmus
,
J.
Katz
,
D.
Cao
,
J. P.
Palastro
, and
D. H.
Froula
,
Phys. Rev. Lett.
121
,
125001
(
2018
).
9.
N. J.
Peacock
,
D. C.
Robinson
,
M. J.
Forrest
,
P. D.
Wilcock
, and
V. V.
Sannikov
,
Nature
224
,
488
(
1969
).
10.
K.
Muraoka
and
A.
Kono
,
J. Phys. D: Appl. Phys.
44
,
043001
(
2011
).
11.
M.
Huang
,
K.
Warner
,
S.
Lehn
, and
G. M.
Hieftje
,
Spectrochim. Acta, Part B
55
,
1397
(
2000
).
12.
H. M.
Roehr
,
K. H.
Steuer
,
M.
Heindieter
, and
D.
Meisel
, “
Temperature and density measurement by laser light scattering in high-temperature fusion plasmas
,”
Proc. SPIE
1277
,
154
(
1990
).
13.
D. M.
Villeneuve
,
H. A.
Baldis
,
J. E.
Bernard
, and
R.
Benesch
,
J. Opt. Soc. Am. B
8
,
895
(
1991
).
14.
J. L.
Kline
,
D. S.
Montgomery
,
B.
Bezzerides
,
J. A.
Cobble
,
D. F.
DuBois
,
R. P.
Johnson
,
H. A.
Rose
,
L.
Yin
, and
H. X.
Vu
,
Phys. Rev. Lett.
94
,
175003
(
2005
).
15.
S. V. R.
Rocco
,
J. T.
Banasek
,
W. M.
Potter
, and
D. A.
Hammer
,
Rev. Sci. Instrum.
89
,
10C117
(
2018
).
16.
W.
Tan
,
Y.
Liu
,
X.
Li
,
P.
Yuan
,
H.
Zhao
,
Z.
Li
, and
J.
Zheng
,
J. Appl. Phys.
129
,
043302
(
2021
).
17.
A. J.
Mackinnon
,
S.
Shiromizu
,
G.
Antonini
,
J.
Auerbach
,
K.
Haney
,
D. H.
Froula
,
J.
Moody
,
G.
Gregori
,
C.
Constantin
,
C.
Sorce
,
L.
Divol
,
R. L.
Griffith
,
S.
Glenzer
,
J.
Satariano
,
P. K.
Whitman
,
S. N.
Locke
,
E. L.
Miller
,
R.
Huff
,
K.
Thorp
,
W.
Armstrong
,
R.
Bahr
,
W.
Seka
,
G.
Pien
,
J.
Mathers
,
S.
Morse
,
S.
Loucks
, and
S.
Stagnitto
,
Rev. Sci. Instrum.
75
,
3906
(
2004
).
18.
J.
Katz
,
R.
Boni
,
C.
Sorce
,
R.
Follett
,
M. J.
Shoup
III
, and
D. H.
Froula
,
Rev. Sci. Instrum.
83
,
10E349
(
2012
).
19.
20.
L.
Ondič
,
K.
Dohnalová
,
I.
Pelant
,
K.
Žídek
, and
W. D. A. M.
de Boer
,
Rev. Sci. Instrum.
81
,
063104
(
2010
).
21.
A. L.
Milder
,
J.
Katz
,
R.
Boni
,
J. P.
Palastro
,
M.
Sherlock
,
W.
Rozmus
, and
D. H.
Froula
,
Phys. Rev. Lett.
127
,
015001
(
2021
).
22.
A. L.
Milder
,
A. S.
Joglekar
,
W.
Rozmus
, and
D. H.
Froula
,
Mach. Learn.: Sci. Technol.
5
,
015026
(
2024
).
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