The thermal conductivity of three-dimensional (3D) strongly coupled complex (dusty) plasmas has been calculated through the improved Evan-Gillan nonequilibrium molecular dynamics (NEMD) algorithm. The extensive NEMD simulations are performed to study the performance of the algorithm and compared the results determined for perturbed heat energy current to the results obtained by equilibrium molecular dynamics (EMD) simulations. The calculations show that the present algorithm gives accurate results with fast convergence and small size effects over a wide range of plasma coupling and screening parameters. The present simulation results are in agreement with part of others NEMD and EMD data in the literature with simulation values generally overpredicting the thermal conductivity by 3%–20%, depending on plasma parameters. It is shown that the homogenous perturbed method can be employed to estimate the thermal conductivity and to understand the fundamental behaviors in 3D complex Yukawa liquids.

1.
D. J.
Evans
and
G. P.
Morriss
,
Statistical Mechanics of Non-equilibrium Liquids
(
Academic
,
London
,
1990
).
2.
J.-P.
Hansen
and
I. R.
McDonald
,
Theory of Simple Liquids
(
Academic
,
London
,
1986
).
3.
A.
Majumdar
,
Microscale Thermophys. Eng.
4
,
77
(
2000
).
4.
W. J.
Minkowycz
and
E. M.
Sparrow
,
Advances in Numerical Heat Transfer
(
Taylor & Francis
,
New York
,
2000
).
5.
A.
Shahzad
and
M.-G.
He
,
Contrib. Plasma Phys.
(
2012
), doi:.
6.
M. S.
Murillo
,
Phys. Plasma
11
,
2964
(
2004
).
7.
G. E.
Morfill
,
H. M.
Thomas
,
U.
Konopka
, and
M.
Zuzic
,
Phys. Plasma
6
,
1769
(
1999
).
8.
A.
Shahzad
and
M.-G.
He
,
Phys. Scr.
86
,
015502
(
2012
).
9.
Z.
Donko
,
J.
Goree
,
P.
Hartmann
, and
K.
Kutasi
,
Phys. Rev. Lett.
96
,
145003
(
2006
).
10.
Z.
Donko
and
P.
Hartmann
,
Phys. Rev. E
78
,
026408
(
2008
).
11.
G.
Salin
and
J.-M.
Caillol
,
Phys. Plasmas
10
,
1220
(
2003
).
12.
G.
Faussurier
and
M. S.
Murillo
,
Phys. Rev. E
67
,
046404
(
2003
).
13.
Z.
Donko
and
P.
Hartmann
,
Phys. Rev. E
69
,
016405
(
2004
).
14.
H.
Ohta
and
S.
Hamaguchi
,
Phys. Plasmas
7
,
4506
(
2000
).
15.
T. S.
Ramazanov
and
K. N.
Dzhumagulova
,
A. N.
Jumabekov
, and
M. K.
Dosbolayev
,
Phys. Plasmas
15
,
053704
(
2008
).
16.
T.
Ohde
,
M.
Bonitz
,
T.
Bornath
, and
M.
Schlange
,
Contrib. Plasma Phys.
37
,
229
(
1997
).
17.
K. N.
Dzhumagulova
,
T. S.
Ramazanov
, and
R. U.
Masheeva
,
Contrib. Plasma Phys.
52
,
182
(
2012
).
18.
T. S.
Ramazanov
and
K. N.
Dzhumagulova
,
Contrib. Plasma Phys.
48
,
357
(
2008
).
19.
T. S.
Ramazanov
,
K. N.
Dzhumagulova
,
S. K.
Kodanova
,
T. T.
Daniyarov
, and
M. K.
Dosbolayev
,
Contrib. Plasma Phys.
49
,
15
(
2009
).
20.
S.
Sarman
,
D. J.
Evans
, and
P. T.
Cummings
,
Phys. Rep.
305
,
1
(
1998
).
21.
W. G.
Hoover
and
W. T.
Ashurst
,
Theor. Chem. Adv. Perspect.
1
,
2
(
1975
).
22.
G.
Ciccotti
,
G.
Jacucci
, and
I. R.
McDonald
,
J. Phys. C
11
,
L509
(
1978
).
23.
F.
Muller-Plathe
,
J. Chem. Phys.
106
,
6082
(
1997
).
24.
T.
Terao
and
F.
Muller-Plathe
,
J. Chem. Phys.
122
,
081103
(
2005
).
25.
R. J.
Hulse
,
R. L.
Rowley
, and
W. V.
Wilding
,
Int. J. Thermophys.
26
,
1
(
2005
).
26.
D. J.
Evans
,
Phys. Rev. A
23
,
1988
(
1981
).
27.
D. J.
Evans
,
J. Phys. Lett. A
91
,
457
(
1982
).
28.
M. J.
Gillan
and
M.
Dixon
,
J. Phys. C: Solid State Phys.
16
,
869
(
1983
).
29.
G.
Ciccotti
,
G.
Jacucci
, and
I. R.
McDonald
,
J. Stat. Phys.
21
,
1
(
1979
).
30.
N.
Galamba
and
C. A.
Nieto de Castro
,
J. Chem. Phys.
126
,
204511
(
2007
).
31.
K. K.
Mandadapu
,
R. E.
Jones
, and
P.
Papadopoulos
,
J. Chem. Phys.
130
,
204106
(
2009
).
32.
Z.
Wang
,
X.
Zu
,
F.
Gao
,
W. J.
Weber
, and
J.-P.
Crocombette
,
Appl. Phys. Lett.
90
,
161923
(
2007
).
33.
K. K.
Mandadapu
,
R. E.
Jones
, and
P.
Papadopoulos
,
J. Chem. Phys.
133
,
034122
(
2010
).
34.
35.
C.
Pierleoni
,
G.
Ciccotti
, and
B.
Bernu
,
Europhys. Lett.
4
,
1115
(
1987
).
36.
C. V.
Paolini
and
G.
Ciccotti
,
Phys. Rev. A
35
,
5156
(
1987
).
37.
C. V.
Paolini
,
G.
Ciccotti
, and
C.
Massobrio
,
Phys. Rev. A
34
,
1355
(
1986
).
38.
A.
Shahzad
and
M.-G.
He
, “
Thermodynamic characteristics of dusty plasma studied by molecular dynamics simulation
,”
Plasma Sci. Technol.
(in press).
39.
M. P.
Allen
and
D. J.
Tildesley
,
Computer Simulation of Liquids
(
Oxford University Press
,
New York
,
1989
).
40.
X. G.
Liang
,
Chin. Sci. Bull.
52
,
2457
(
2007
).
41.
T. S.
Ramazanov
,
Zh. A.
Moldabekov
,
K. N.
Dzhumagulova
, and
M. M.
Muratov
,
Phys. Plasmas
18
,
103705
(
2011
).
42.
T. S.
Ramazanov
,
S. K.
Kodanova
,
T. T.
Daniyarov
, and
Zh. A.
Moldabekov
,
Contrib. Plasma Phys.
51
,
514
(
2011
).
43.
S. A.
Maiorov
,
T. S.
Ramazanov
,
K. N.
Dzhumagulova
,
A. N.
Jumabekov
, and
M. K.
Dosbolayev
,
Phys. Plasmas
15
,
093701
(
2008
).
44.
T. S.
Ramazanov
,
T. T.
Daniyarov
,
S. A.
Maiorov
,
S. K.
Kodanova
,
M. K.
Dosbolayev
, and
E. B.
Zhankarashev
,
Contrib. Plasma Phys.
51
,
505
(
2011
).
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