The liquidlike structure of colloidal suspensions with both electrostatic and magnetic interactions is investigated by means of small angle x-ray scattering (SAXS) dependent on an external magnetic field. For weak magnetic interactions, without external field, the magnetic dipoles are randomly oriented. Under this condition, isotropic structures are observed. In an external field, however, the magnetic momenta arrange parallel to the external field and induce anisotropic liquidlike structures. For weak magnetic interactions, the structure factor can be described within the framework of the rescaled mean spherical approximation. Due to the high experimental accuracy of synchrotron SAXS, from the anisotropic distortion of liquidlike structures, interparticle forces smaller than 1015N can easily be detected.

1.
P. N.
Pusey
,
Colloidal Suspensions in Liquids, Freezing and Glass Transition
(
Elsevier
,
New York
,
1991
).
2.
W.
Härtl
,
H.
Versmold
,
U.
Wittig
, and
P.
Linse
,
J. Chem. Phys.
97
,
7797
(
1992
).
3.
W.
Härtl
,
H.
Versmold
, and
X.
Zhang-Heider
,
J. Chem. Phys.
102
,
6613
(
1995
).
4.
C.
Beck
,
W.
Härtl
, and
R.
Hempelmann
,
J. Chem. Phys.
111
,
8209
(
1999
).
5.
W.
Härtl
,
J.
Wagner
,
C.
Beck
,
F.
Gierschner
, and
R.
Hempelmann
,
J. Phys.: Condens. Matter
12
,
A287
(
2000
).
6.
M. O.
Robbins
,
K.
Kremer
, and
G. S.
Grest
,
J. Chem. Phys.
88
,
3286
(
1988
).
7.
P. G.
de Gennes
and
P. A.
Pincus
,
Phys. Kondens. Mater.
11
,
189
(
1970
).
8.
J. C.
Bacri
,
R.
Perzynski
,
D.
Salin
,
V.
Cabuil
, and
R.
Massart
,
J. Magn. Magn. Mater.
85
,
27
(
1990
).
9.
S.
Bee
,
R.
Massart
, and
S.
Neveu
,
J. Magn. Magn. Mater.
149
,
6
(
1995
).
10.
Ferrofluids
, edited by
S.
Odenbach
(
Springer
,
Berlin, Germany
,
2002
).
11.
H.
Bönnemann
,
W.
Brijoux
,
R.
Brinkmann
,
N.
Matoussevitch
,
N.
Waldöfner
,
N.
Palina
, and
H.
Modrow
,
Inorg. Chim. Acta
350
,
617
(
2003
).
12.
H.
Bönnemann
,
R. A.
Brand
,
W.
Brojoux
 et al.,
Appl. Organomet. Chem.
19
,
790
(
2005
).
13.
E.
Dubois
,
V.
Cabuil
,
F.
Boue
, and
R.
Perzynski
,
J. Chem. Phys.
111
,
7147
(
1999
).
14.
J.
Wagner
,
T.
Autenrieth
, and
R.
Hempelmann
,
J. Magn. Magn. Mater.
252
,
4
(
2002
).
15.
T.
Autenrieth
,
J.
Wagner
,
R.
Hempelmann
,
W.
Härtl
,
A.
Robert
, and
G.
Grübel
,
Appl. Organomet. Chem.
18
,
520
(
2004
).
16.
J.
Wagner
,
T.
Autenrieth
,
A.
Robert
,
W.
Härtl
, and
G.
Grübel
,
J. Magn. Magn. Mater.
289
,
54
(
2005
).
17.
J. P.
Hansen
and
I. R.
McDonald
,
Theory of Simple Liquids
(
Academic
,
New York
,
1990
).
18.
J. L.
Lebowitz
and
J. K.
Percus
,
Phys. Rev.
144
,
251
(
1966
).
19.
J. B.
Hayter
and
J.
Penfold
,
Mol. Phys.
42
,
108
(
1981
).
20.
M. S.
Wertheim
,
J. Chem. Phys.
55
,
4291
(
1971
).
21.
E. J.W.
Verwey
and
J. T.G.
Overbeek
,
Theory of the Stability of Lyophobic Colloids
(
Elsevier
,
Amsterdam
,
1948
).
22.
J.
Wagner
,
W.
Härtl
, and
H.
Walderhaug
,
J. Chem. Phys.
114
,
975
(
2001
).
23.
C. G.
Gray
and
K. E.
Gubbins
,
Theory of Molecular Liquids
(
Clarendon
,
Oxford
,
1984
).
24.
M. S.
Wertheim
,
J. Math. Phys.
5
,
643
(
1964
).
25.
J. P.
Hansen
and
J. B.
Hayter
,
Mol. Phys.
46
,
651
(
1982
).
26.
F.
Gazeau
,
E.
Dubois
,
J. C.
Bacri
,
F.
Boue
,
A.
Cebers
, and
R.
Perzynski
,
Phys. Rev. E
65
,
031403
(
2002
).
27.
F.
Cousin
,
E.
Dubois
, and
V.
Cabuil
,
Phys. Rev. E
68
,
021405
(
2003
).
28.
G.
Meriguet
,
M.
Jardat
, and
P.
Turq
,
J. Chem. Phys.
121
,
6078
(
2004
).
29.
W.
Härtl
and
H.
Versmold
,
J. Chem. Phys.
80
,
1387
(
1984
).
30.
R.
Klein
and
B.
D’Aguano
,
Light Scattering, Principles and Development
(
Clarendon
,
Oxford
,
1996
), pp.
30
102
.
31.
B.
D’Aguanno
,
R.
Krause
,
J. M.
Mendez-Alcaraz
, and
R.
Klein
,
J. Phys.: Condens. Matter
4
,
3077
(
1992
),
32.
F. L.
Calderon
,
T.
Stora
,
O. Mondain
Monval
,
P.
Poulin
, and
J.
Bibette
,
Phys. Rev. Lett.
72
,
2959
(
1994
).
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