We describe the design of a Thomson scattering (TS) diagnostic to be used on the SMall Aspect Ratio Tokamak (SMART). SMART is a spherical tokamak being commissioned in Spain that aims to explore positive triangularity and negative triangularity plasma scenarios at a low aspect ratio. The SMART TS diagnostic is designed to operate at high spatial resolution, 6 mm scattering length in the low-field side and 9 mm in the high-field side regions, and a wide dynamic range, electron temperature from 1 eV to 1 keV and density from 5×1018m3 to 1×1020m3, to resolve large gradients formed at the plasma edge and in the scrape-off layer (SOL) under different triangularities and low aspect ratios. A 2 J @1064 nm laser will be used that is capable of operating in the burst mode at 1, 2, and 4 kHz to investigate fast phenomena and at 30 Hz to study 1 s (or more) long discharges. The scattered light will be collected over an angular range of 60°120° from 28 spatial points in the midplane covering the entire plasma width and the outer midplane SOL. Each scattering signal will be spectrally resolved on five wavelength channels of a polychromator to obtain the electron temperature measurement. We will also present a method to monitor in situ laser alignment in the core during calibrations and plasma operations.

1.
Y.
Camenen
,
A.
Pochelon
,
R.
Behn
,
A.
Bottino
,
A.
Bortolon
,
S.
Coda
,
A.
Karpushov
,
O.
Sauter
,
G.
Zhuang
, and
TCV team
,
Nucl. Fusion
47
,
510
(
2007
).
2.
M.
Austin
,
A.
Marinoni
,
M.
Walker
,
M.
Brookman
,
J.
Degrassie
,
A.
Hyatt
,
G.
McKee
,
C.
Petty
,
T.
Rhodes
,
S.
Smith
et al,
Phys. Rev. Lett.
122
,
115001
(
2019
).
3.
T. C.
Luce
,
Plasma Phys. Controlled Fusion
55
,
095009
(
2013
).
4.
A.
Mancini
,
L.
Velarde
,
E.
Viezzer
,
D. J.
Cruz-Zabala
,
J. F.
Rivero-Rodriguez
,
M.
Garcia-Muñoz
,
L.
Sanchis
,
A.
Snicker
,
J.
Segado-Fernández
,
J.
Garcia-Dominguez
et al,
Fusion Eng. Des.
192
,
113833
(
2023
).
5.
J.
Segado-Fernandez
,
A.
Mancini
,
J.
Garcia-Dominguez
,
J.
Ayllon-Guerola
,
D.
Cruz-Zabala
,
L.
Velarde
,
M.
Garcia-Muñoz
,
E.
Viezzer
,
C.
Navarro
,
M.
Agredano-Torres
,
P.
Vicente-Torres
et al,
Fusion Eng. Des.
193
,
113832
(
2023
).
6.
M.
Kaur
,
A.
Diallo
,
B.
LeBlanc
,
M.
Podesta
,
J.
Berkery
,
J.
Segado-Fernandez
,
E.
Viezzer
,
M.
Garcia-Munoz
,
A.
Mancini
, and
D.
Cruz-Zabala
, in
65th Annual Meeting of the American Physical Society Division of Plasma Physics,
Denver, CO
(
American Physical Society
,
2023
), pp.
AP01
031
.
8.
M.
Podestà
,
D.
Cruz-Zabala
,
F.
Poli
,
J.
Dominguez-Palacios
,
J.
Berkery
,
M.
Garcia-Muñoz
,
E.
Viezzer
,
A.
Mancini
,
J.
Segado
,
L.
Velarde
, and
S. M.
Kaye
, “
NBI optimization on SMART and implications for scenario development
,”
Plasma Phys. Controlled Fusion
66
,
045021
(
2024
).
9.
D.
Kim
,
Y.-G.
Kim
,
J.-H.
Lee
,
Y.-S.
Na
, and
Y.
Hwang
,
Fusion Eng. Des.
146
,
1131
(
2019
).
10.
J. H
Kim
,
Y. G.
Kim
,
D.
Kim
,
J.-H.
Lee
,
Y. S.
Hwang
et al,
Rev. Sci. Instrum.
92
,
043549
(
2021
).
11.
E.
Jung
,
Y.
Na
,
S.
Kim
,
W.
Jeong
,
J.-K.
Park
,
T.
Hahm
,
Y.-c.
Ghim
, and
Y.
Hwang
,
Nucl. Fusion
62
,
126029
(
2022
).
12.
V.
Gusev
,
N.
Bakharev
,
V.
Belyakov
,
B. Y.
Ber
,
E.
Bondarchuk
,
V.
Bulanin
,
A.
Bykov
,
F.
Chernyshev
,
E.
Demina
,
V.
Dyachenko
et al,
Nucl. Fusion
55
,
104016
(
2015
).
13.
A.
Sykes
,
R.
Akers
,
L.
Appel
,
P. G.
Carolan
,
N. J.
Conway
,
M.
Cox
,
A. R.
Field
,
D. A.
Gates
,
S.
Gee
,
M.
Gryaznevich
et al,
Plasma Phys. Control. Fusion
39
,
B247
(
1997
).
14.
A.
Telnova
,
G.
Kurskiev
,
I. M.
Balachenkov
,
N. N.
Bakharev
,
V. K.
Gusev
,
N. S.
Zhil’tsov
,
A. A.
Kavin
,
E. O.
Kiselev
,
V. B.
Minaev
,
I.
Miroshnikov
et al,
Tech. Phys.
66
,
401
(
2021
).
15.
N.
Bakharev
,
I.
Balachenkov
,
F.
Chernyshev
,
I.
Chugunov
,
V.
Dyachenko
,
V.
Gusev
,
M.
Iliasova
,
E.
Khilkevitch
,
N.
Khromov
,
E.
Kiselev
et al, “
First globus-M2 results
,”
Plasma Phys. Rep.
46
,
675
(
2020
).
16.
G.
Kurskiev
,
I.
Miroshnikov
,
N.
Sakharov
,
V.
Gusev
,
Y. V.
Petrov
,
V.
Minaev
,
I.
Balachenkov
,
N.
Bakharev
,
F.
Chernyshev
,
V. Y.
Goryainov
et al,
Nucl. Fusion
62
,
104002
(
2022
).
17.
M.
Gryaznevich
,
TE. Ltd. Physics Team
, and
TE. Ltd HTS Team for Tokamak Energy Ltd.
,
Nucl. Fusion
62
,
042008
(
2022
).
18.
D. J.
Cruz-Zabala
,
M.
Podesta
,
F.
Poli
,
S.
Kaye
,
M.
Garcia-Munoz
,
E.
Viezzer
, and
J.
Berkery
, “
Performance prediction applying different reduced turbulence models to the SMART tokamak
,”
Nucl. Fusion
(submitted)
(
2024
).
19.
R.
Scannell
,
M.
Walsh
,
P.
Carolan
,
A.
Darke
,
M.
Dunstan
,
R.
Huxford
,
G.
McArdle
,
D.
Morgan
,
G.
Naylor
,
T.
O’Gorman
et al,
Rev. Sci. Instrum.
79
,
10E730
(
2008
).
20.
J.
Howard
,
B. W.
James
, and
W. I. B.
Smith
,
J. Phys. D: Appl. Phys.
12
,
1435
(
1979
).
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