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1.
National Academies of Sciences, Engineering, and Medicine,
Plasma Science: Enabling Technology, Sustainability, Security, and Exploration
(
The National Academies Press
,
Washington, DC
,
2020
).
2.
H.-S.
Park
,
S. J. M.
Ali
,
P. M.
Celliers
,
F.
Coppari
,
J.
Eggert
,
A.
Krygier
,
A. E.
Lazicki
,
J. M.
Mcnaney
,
M.
Millot
,
Y.
Ping
,
R. E.
Rudd
,
B. A.
Remington
,
H.
Sio
,
R. F.
Smith
,
M. D.
Knudson
, and
E. E.
McBride
, “
Techniques for studying materials under extreme states of high energy density compression
,”
Phys. Plasmas
28
,
060901
(
2021
).
https://doi.org/10.1063/5.0046199
3.
A.
de Castro
,
C.
Moynihan
,
S.
Stemmley
,
M.
Szott
, and
D. N.
Ruzic
, “...
1.
National Academies of Sciences, Engineering, and Medicine,
Plasma Science: Enabling Technology, Sustainability, Security, and Exploration
(
The National Academies Press
,
Washington, DC
,
2020
).
2.
H.-S.
Park
,
S. J. M.
Ali
,
P. M.
Celliers
,
F.
Coppari
,
J.
Eggert
,
A.
Krygier
,
A. E.
Lazicki
,
J. M.
Mcnaney
,
M.
Millot
,
Y.
Ping
,
R. E.
Rudd
,
B. A.
Remington
,
H.
Sio
,
R. F.
Smith
,
M. D.
Knudson
, and
E. E.
McBride
, “
Techniques for studying materials under extreme states of high energy density compression
,”
Phys. Plasmas
28
,
060901
(
2021
).
3.
A.
de Castro
,
C.
Moynihan
,
S.
Stemmley
,
M.
Szott
, and
D. N.
Ruzic
, “
Lithium, a path to make fusion energy affordable
,”
Phys. Plasmas
28
,
050901
(
2021
).
4.
D. J.
Bernstein
and
S. D.
Baalrud
, “
Effects of Coulomb coupling on friction in strongly magnetized plasmas
,”
Phys. Plasmas
28
,
062101
(
2021
).
5.
Z.
Nie
,
Y.
Wu
,
C.
Zhang
,
W. B.
Mori
,
C.
Joshi
,
W.
Lu
,
C.-H.
Pai
,
J.
Hua
, and
J.
Wang
, “
Ultra-short pulse generation from mid-IR to THz range using plasma wakes and relativistic ionization fronts
,”
Phys. Plasmas
28
,
023106
(
2021
).
6.
Y.
Shi
,
H.
Qin
, and
N. J.
Fisch
, “
Plasma physics in strong-field regimes: Theories and simulations
,”
Phys. Plasmas
28
,
042104
(
2021
).
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