We report our study of twin domains in La2xSrxCuO4 under uniaxial pressure. Using bulk-sensitive x-ray microdiffraction in Laue geometry, we image the distribution of twin domains at room temperature. When compressive uniaxial pressure is applied along one of the in-plane crystallographic axes, the domain population changes dramatically. We observe that the twin domain with a shorter lattice parameter along the direction of pressure is unstable under compression and disappears completely only under moderate pressure. On the other hand, application of tensile pressure changes the domain structure only slightly, demonstrating the asymmetric response of the sample to uniaxial pressure. Our observations suggest that a crystal's response to uniaxial pressure is complex and could deviate easily from the linear-response regime.

1.

We use the term pressure in our experiment, since both stress and strain are second-rank tensor quantities, and thus not easy to define uniaxial direction.

2.
U.
Welp
,
M.
Grimsditch
,
S.
Fleshler
,
W.
Nessler
,
J.
Downey
,
G. W.
Crabtree
, and
J.
Guimpel
,
Phys. Rev. Lett.
69
,
2130
(
1992
).
3.
N.
Takeshita
,
T.
Sasagawa
,
T.
Sugioka
,
Y.
Tokura
, and
H.
Takagi
,
J. Phys. Soc. Jpn.
73
,
1123
(
2004
).
4.
Z. H.
Ni
,
T.
Yu
,
Y. H.
Lu
,
Y. Y.
Wang
,
Y. P.
Feng
, and
Z. X.
Shen
,
ACS Nano
2
,
2301
(
2008
).
5.
F.
Guinea
,
M. I.
Katsnelson
, and
A. K.
Geim
,
Nat. Phys.
6
,
30
(
2010
).
6.
I. R.
Fisher
,
L.
Degiorgi
, and
Z. X.
Shen
,
Rep. Prog. Phys.
74
,
124506
(
2011
).
7.
J.-H.
Chu
,
J. G.
Analytis
,
K.
De Greve
,
P. L.
McMahon
,
Z.
Islam
,
Y.
Yamamoto
, and
I. R.
Fisher
,
Science
329
,
824
(
2010
).
8.
M. A.
Tanatar
,
A.
Kreyssig
,
S.
Nandi
,
N.
Ni
,
S. L.
Bud'ko
,
P. C.
Canfield
,
A. I.
Goldman
, and
R.
Prozorov
,
Phys. Rev. B
79
,
180508
(
2009
).
9.
M. A.
Tanatar
,
E. C.
Blomberg
,
A.
Kreyssig
,
M. G.
Kim
,
N.
Ni
,
A.
Thaler
,
S. L.
Bud'ko
,
P. C.
Canfield
,
A. I.
Goldman
,
I. I.
Mazin
, and
R.
Prozorov
,
Phys. Rev. B
81
,
184508
(
2010
).
10.
E. C.
Blomberg
,
A.
Kreyssig
,
M. A.
Tanatar
,
R. M.
Fernandes
,
M. G.
Kim
,
A.
Thaler
,
J.
Schmalian
,
S. L.
Bud'ko
,
P. C.
Canfield
,
A. I.
Goldman
, and
R.
Prozorov
,
Phys. Rev. B
85
,
144509
(
2012
).
11.
C. W.
Hicks
,
D. O.
Brodsky
,
E. A.
Yelland
,
A. S.
Gibbs
,
J. A. N.
Bruin
,
M. E.
Barber
,
S. D.
Edkins
,
K.
Nishimura
,
S.
Yonezawa
,
Y.
Maeno
, and
A. P.
Mackenzie
,
Science
344
,
283
(
2014
).
12.
A. N.
Lavrov
,
Y.
Ando
,
S.
Komiya
, and
I.
Tsukada
,
Phys. Rev. Lett.
87
,
017007
(
2001
).
13.
A. N.
Lavrov
,
S.
Komiya
, and
Y.
Ando
,
Nature
418
,
385
(
2002
).
14.
Y.
Ando
,
K.
Segawa
,
S.
Komiya
, and
A. N.
Lavrov
,
Phys. Rev. Lett.
88
,
137005
(
2002
).
15.
C.
Dhital
,
Z.
Yamani
,
W.
Tian
,
J.
Zeretsky
,
A. S.
Sefat
,
Z.
Wang
,
R. J.
Birgeneau
, and
S. D.
Wilson
,
Phys. Rev. Lett.
108
,
087001
(
2012
).
16.
C.
Chen
,
S.-W.
Cheong
,
D.
Werder
,
A.
Cooper
, and
L.
Rupp
,
Physica C
175
,
301
(
1991
).
17.
A.
Sawada
,
Y.
Nishihata
,
K.
Oka
, and
H.
Unoki
,
Jpn. J. Appl. Phys.
28
,
L1787
(
1989
).
19.
T.
Roy
and
T. E.
Mitchell
,
Philos. Mag. A
63
,
225
(
1991
).
20.
M.
Braden
,
G.
Heger
,
P.
Schweiss
,
Z.
Fisk
,
K.
Gamayunov
,
I.
Tanaka
, and
H.
Kojima
,
Physica C
191
,
455
(
1992
).
21.
C. W.
Hicks
,
M. E.
Barber
,
S. D.
Edkins
,
D. O.
Brodsky
, and
A. P.
Mackenzie
,
Rev. Sci. Instrum.
85
,
065003
(
2014
).
22.
H.
Takahashi
,
H.
Shaked
,
B. A.
Hunter
,
P. G.
Radaelli
,
R. L.
Hitterman
,
D. G.
Hinks
, and
J. D.
Jorgensen
,
Phys. Rev. B
50
,
3221
(
1994
).
23.
J. B.
Goodenough
and
A.
Manthiram
, in
Chemistry of high temperature superconductors
, edited by
C. N. R.
Rao
(
World Scientific
,
Singapore
,
1991
), pp.
1
56
.
24.
R. H.
Baughman
,
S.
Stafstrom
,
C.
Cui
, and
S. O.
Dantas
,
Science
279
,
1522
(
1998
).
25.
D.
Attard
,
R.
Caruana-Gauci
,
R.
Gatt
, and
J. N.
Grima
,
Phys. Status Solidi B
253
,
1410
(
2016
).

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