We report observations of the ferroelectric domain structure in epitaxial lead zirconate titanate (PbZr0.2Ti0.8O3) ferroelectric thin films using piezoresponse microscopy. By manipulating the film thickness, a uniform two-dimensional grid of 90° domains (a domains, i.e., c axis in the plane of the film) has been induced. Our studies show that the out of plane polarization direction in the film is preferentially oriented. 90° domains have been observed as regions of low piezoresponse, as compared to the fully c axis oriented regions. We have studied the influence of these 90° domains and the domain walls on the nucleation of polarization reversal. We observe that the nucleation occurs preferentially at 90° domain interfaces. Polarization reversal is seen to occur through the nucleation and subsequent growth of “semicircular/elliptical” reverse domains, which eventually consume the entire region as a function of reversal time.

1.
C. A.
Paz de Araujo
,
J. D.
Cuchiaro
,
L. D.
McMillan
,
M. C.
Scott
, and
J. F.
Scott
,
Nature (London)
374
,
627
(
1995
).
2.
Proceedings of the Tenth International Symposium on Integrated Ferroelectrics, Monterey, CA, March 1998.
3.
J. F.
Scott
and
C. A.
Araujo
,
Science
246
,
1400
(
1989
).
4.
J. J.
Lee
,
C. L.
Thio
, and
S. B.
Desu
,
Phys. Status Solidi A
151
,
171
(
1995
).
5.
S. P.
Alpay
,
V.
Nagarajan
,
L. A.
Bendersky
,
M. D.
Vaudin
,
S.
Aggarwal
,
R.
Ramesh
, and
A. L.
Roytburd
,
J. Appl. Phys.
85
,
3271
(
1999
).
6.
R.
Ramesh
,
T.
Sands
, and
V. G.
Keramidas
,
Appl. Phys. Lett.
63
,
731
(
1993
).
7.
J. S.
Speck
,
A.
Seifert
,
W.
Pompe
, and
R.
Ramesh
,
J. Appl. Phys.
76
,
477
(
1994
).
8.
R.
Takayama
and
Y.
Tomita
,
J. Appl. Phys.
65
,
1666
(
1989
).
9.
C. M.
Foster
,
G. R.
Bai
,
R.
Csencsits
,
J.
Vetrone
,
R.
Jammy
,
L. A.
Wills
,
E.
Carr
, and
J.
Amano
,
J. Appl. Phys.
81
,
2349
(
1997
).
10.
A. L.
Roitburd
,
Phys. Status Solidi A
37
,
329
(
1976
).
11.
S.
Madhukar
,
S.
Aggarwal
,
A. M.
Dhote
,
R.
Ramesh
,
A.
Krishnan
,
D.
Keeble
, and
E.
Poindexter
,
J. Appl. Phys.
81
,
3543
(
1997
).
12.
R.
Luthi
,
H.
Haefke
,
K. P.
Meyer
,
L.
Howald
, and
H. J.
Guntherodt
,
J. Appl. Phys.
74
,
7461
(
1993
);
T.
Tybell
,
C. H.
Ahn
, and
J. M.
Triscone
,
Appl. Phys. Lett.
72
,
1454
(
1998
);
G.
Zavala
,
J. H.
Fendler
, and
S.
Trollier-McKinstry
,
J. Appl. Phys.
81
,
7480
(
1997
);
A.
Gruverman
,
H.
Tokumoto
,
A. S.
Prakash
,
S.
Aggarwal
,
B.
Yang
,
M.
Wuttig
,
R.
Ramesh
,
T.
Venkatesan
, and
O.
Auciello
,
Appl. Phys. Lett.
71
,
3492
(
1997
).
13.
C.
Durkan
,
M. E.
Welland
,
D. P.
Chu
, and
P.
Migliorato
,
Phys. Rev. B
60
,
16
198
(
1999
).
14.
M. J.
Haun
,
E.
Furman
,
S. J.
Jang
, and
L. E.
Cross
,
Ferroelectrics
99
,
13
(
1989
);
M. J.
Haun
,
E.
Furman
,
S. J.
Jang
, and
L. E.
Cross
,
Ferroelectrics
99
,
63
(
1989
).
15.
D. E.
Steinhauer
,
C. P.
Vlahacos
,
F. C.
Wellstood
,
Steven M.
Anlage
,
C.
Canedy
,
R.
Ramesh
,
A.
Stanishevsky
, and
J.
Melngailis
,
Appl. Phys. Lett.
75
,
3180
(
1999
).
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