The possibility to conduct simulations of homogeneous nucleation of argon from a supersaturated vapor phase using a microcanonical or NVE ensemble is evaluated (NVE: number of particles N, volume V, and energy E are constant). In order to initiate a phase separation kinetic energy is removed from the system in one step which transfers the system into a supersaturated state. After this temperature jump the simulation is continued in a NVE ensemble. The simulations are performed for different initial-state points and different temperature jumps. The cluster formation and growth over the course of the adiabatic simulations are analyzed. The progression of the temperature being related to the cluster size in NVE systems is traced. Also the influence of the size of the simulation system is investigated. For a certain range of low supersaturation a dynamic coexistence between two states has been found. Furthermore, the obtained nucleation rates are correlated with two simple functions. By applying the nucleation theorems to these functions the size and excess energy of the critical cluster are estimated. The results are consistent with other theoretical data and experimental data available in the literature.

1.
R.
Becker
and
W.
Döring
,
Ann. Phys.
24
,
719
(
1935
).
2.
M.
Volmer
and
A. Z.
Weber
, Z. Phys. Chem. (Leipzig)
119
,
277
(
1926
).
3.
S. L.
Girshick
and
C. P.
Chiu
,
J. Chem. Phys.
93
,
1273
(
1990
).
4.
J.
Wölk
and
R.
Strey
,
J. Phys. Chem. B
105
,
11683
(
2001
).
5.
A.
Fladerer
, Ph.D. thesis,
University Cologne
,
2002
.
6.
A.
Fladerer
and
R.
Strey
, J. Chem. Phys. (submitted).
7.
X. C.
Zeng
and
D. W.
Oxtoby
,
J. Chem. Phys.
94
,
4472
(
1991
).
8.
P. Rein
ten Wolde
and
D.
Frenkel
,
J. Chem. Phys.
109
,
9901
(
1998
).
9.
B.
Chen
,
J. I.
Siepmann
,
K. J.
Oh
, and
M. L.
Klein
,
J. Chem. Phys.
116
,
4317
(
2002
).
10.
H. J.C.
Berendsen
,
J. P.M.
Postma
,
W. F.
van Gunsteren
,
A.
DiNola
, and
J. R.
Haak
,
J. Chem. Phys.
81
,
3684
(
1984
).
11.
S.
Nosé
,
Mol. Phys.
52
,
255
(
1984
).
12.
W. G.
Hoover
,
Phys. Rev. A
31
,
1695
(
1985
).
13.
W. G.
Hoover
,
Phys. Rev. A
34
,
2499
(
1986
).
14.
H. C.
Andersen
,
J. Chem. Phys.
72
,
2384
(
1980
).
15.
S.
Wonczak
, Ph.D. thesis,
University Cologne
,
2001
.
16.
K.
Laasonen
,
S.
Wonczak
,
R.
Strey
, and
A.
Laaksonen
,
J. Chem. Phys.
113
,
9741
(
2000
).
17.
S.
Toxvaerd
,
J. Chem. Phys.
115
,
8913
(
2001
).
18.
P.
Erhart
and
K.
Albe
,
Appl. Surf. Sci.
226
,
12
(
2004
).
19.
K.
Yasuoka
and
M.
Matsumoto
,
J. Chem. Phys.
109
,
8451
(
1998
).
20.
J.
Westergren
,
H.
Grönbeck
,
S.-G.
Kim
, and
D.
Tománek
,
J. Chem. Phys.
107
,
3071
(
1997
).
21.
N.
Lümmen
and
T.
Kraska
,
Nanotechnology
15
,
525
(
2004
).
22.
M.
Hamacher
, diploma thesis,
University Cologne
,
2002
.
23.
N.
Lümmen
and
T.
Kraska
,
Phys. Rev. B
71
,
205403
(
2005
).
24.
N.
Lümmen
and
T.
Kraska
,
J. Aerosol Sci.
36
,
1409
(
2005
).
25.
N.
Lümmen
and
T.
Kraska
,
Comput. Mater. Sci.
35
,
210
(
2006
).
26.
M.
Rao
,
N. J.
Berne
, and
M. H.
Kalos
,
J. Chem. Phys.
68
,
1325
(
1978
).
27.
T.
Kraska
,
Ind. Eng. Chem. Res.
43
,
6213
(
2004
).
28.
E. M.
de Sá
,
E.
Meyer
, and
V.
Soares
,
J. Chem. Phys.
114
,
8505
(
2001
).
29.
F. H.
Stillinger
,
J. Chem. Phys.
38
,
1486
(
1963
).
30.
N.
Lümmen
and
T.
Kraska
,
Nanotechnology
16
,
2870
(
2005
).
31.
H. J.
Freund
and
S. H.
Bauer
,
J. Chem. Phys.
81
,
994
(
1977
).
32.
K. E.J.
Lehtinen
and
M. R.
Zachariah
,
Phys. Rev. B
63
,
205402
(
2001
).
33.
M.
Schmidt
,
R.
Kusche
,
T.
Hippler
,
J.
Donges
,
W.
Kronmüller
,
B.
von Issendorf
, and
H.
Haberland
,
Phys. Rev. Lett.
86
,
1191
(
2001
).
34.
S. C.
Hendy
,
Phys. Rev. B
71
,
115404
(
2005
).
35.
H.
Lei
,
J. Phys.: Condens. Matter
13
,
3023
(
2001
).
36.
D. J.
Wales
,
Mol. Phys.
78
,
151
(
1993
).
37.
D. J.
Wales
and
R. S.
Berry
,
Phys. Rev. Lett.
73
,
2875
(
1994
).
38.
J.
Jellinek
,
T. L.
Beck
, and
R. S.
Berry
,
J. Chem. Phys.
84
,
2783
(
1986
).
39.
T. L.
Beck
,
J.
Jellinek
, and
R. S.
Berry
,
J. Chem. Phys.
87
,
545
(
1987
).
40.
K.
Binder
and
M. H.
Kalos
,
J. Stat. Phys.
22
,
363
(
1980
).
42.
H.
Reiss
and
D.
Reguera
,
J. Phys. Chem. B
108
,
6555
(
2004
).
43.
A.
Mensah
, diploma thesis,
University Cologne
,
2005
.
44.
A.
Mensah
,
J.
Wölk
, and
R.
Strey
(unpublished).
45.
D.
Kashchiev
,
J. Chem. Phys.
76
,
5098
(
1982
).
46.
D. W.
Oxtoby
and
D.
Kashchiev
,
J. Chem. Phys.
100
,
7665
(
1994
).
47.
48.
B.
Senger
,
P.
Schaaf
,
D. S.
Corti
,
R.
Bowles
,
D.
Pointu
,
J.-C.
Voegel
, and
H.
Reiss
,
J. Chem. Phys.
110
,
6438
(
1999
).
49.
K.
Iland
, Ph.D. thesis,
University Cologne
,
2004
.
50.
K.
Iland
,
J.
Wölk
, and
R.
Strey
(unpublished).
51.
B.
Smit
,
J. Chem. Phys.
96
,
8639
(
1992
).
52.
H.
Vehkamäki
and
I. J.
Ford
,
J. Chem. Phys.
114
,
5509
(
2001
).
53.
R.
Strey
and
T.
Schmeling
,
Ber. Bunsenges. Phys. Chem.
87
,
324
(
1983
).
54.
V. C.
Weiss
and
W.
Schröer
,
J. Chem. Phys.
122
,
084705
(
2005
).
55.
B.
Fischer
and
T.
Kraska
,
Mol. Phys.
(unpublished).
56.
J. H.
ter Horst
and
D.
Kashchiev
,
J. Chem. Phys.
123
,
14507
(
2005
).
57.
J.
Wedekind
,
D.
Reguera
, and
R.
Strey
,
J. Chem. Phys.
(submitted).
58.
IUPAC International Thermodynamic Tables of the Fluid State—Argon
, edited by
S.
Angus
and
B.
Armstrong
(
Butterworths
, London,
1971
).
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