A combined experimental and theoretical study of the magneto-optic properties of a series of nickel antidot thin films is presented. The hole diameter varies from 869 down to 636 nm, while the lattice periodicity is fixed at 920 nm. This results in an overall increase of the polar Kerr rotation with decreasing hole diameter due to the increasing surface coverage with nickel. In addition, at photon energies of 2.7 and 3.3 eV, where surface-plasmon excitations are expected, we observe distinct features in the polar Kerr rotation not present in continuous nickel films. The spectral position of the peaks exhibits a red shift with decreasing hole size. This is explained within the context of an effective medium theory by a change in the effective dielectric function of the Ni thin films.

1.
G.
Ctistis
,
E.
Papaioannou
,
P.
Patoka
,
J.
Gutek
,
P.
Fumagalli
, and
M.
Giersig
,
Nano Lett.
9
(
1
),
1
6
(
2009
).
2.
E. T.
Papaioannou
,
V.
Kapaklis
,
E.
Melander
,
B.
Hjörvarsson
,
S. D.
Pappas
,
P.
Patoka
,
M.
Giersig
,
P.
Fumagalli
,
A.
Garcia-Martin
, and
G.
Ctistis
,
Opt. Express
19
(
24
),
23867
23877
(
2011
).
3.
J. F.
Torrado
,
E. T.
Papaioannou
,
G.
Ctistis
,
P.
Patoka
,
M.
Giersig
,
G.
Armelles
, and
A.
Garcia-Martin
,
Phys. Status Solidi RRL
4
(
10
),
271
273
(
2010
).
4.
E. T.
Papaioannou
,
V.
Kapaklis
,
P.
Patoka
,
M.
Giersig
,
P.
Fumagalli
,
A.
Garcia-Martin
,
E.
Ferreiro-Vila
, and
G.
Ctistis
,
Phys. Rev. B
81
(
5
),
054424
(
2010
).
5.
J. B.
Gonzalez-Diaz
,
A.
Garcia-Martin
,
G.
Armelles
,
D.
Navas
,
M.
Vazquez
,
K.
Nielsch
,
R. B.
Wehrspohn
, and
U.
Gosele
,
Adv. Mater.
19
(
18
),
2643
2647
(
2007
).
6.
E.
Melander
,
E.
Ostman
,
J.
Keller
,
J.
Schmidt
,
E. T.
Papaioannou
,
V.
Kapaklis
,
U. B.
Arnalds
,
B.
Caballero
,
A.
Garcia-Martin
,
J. C.
Cuevas
, and
B.
Hjorvarsson
,
Appl. Phys. Lett.
101
(
6
),
063107
(
2012
).
7.
A. A.
Grunin
,
A. G.
Zhdanov
,
A. A.
Ezhov
,
E. A.
Ganshina
, and
A. A.
Fedyanin
,
Appl. Phys. Lett.
97
(
26
),
261908
(
2010
).
8.
D.
Tripathy
,
P.
Vavassori
, and
A. O.
Adeyeye
,
J. Appl. Phys.
109
(
7
),
07B902
(
2011
).
9.
T. W.
Ebbesen
,
H.
Lezec
,
H. F.
Ghaemi
,
T.
Thio
, and
P. A.
Wolff
,
Nature
391
(
6668
),
667
669
(
1998
).
10.
F. J.
Garcia-Vidal
,
L.
Martin-Moreno
,
T.
Ebbesen
, and
L.
Kuipers
,
Rev. Mod. Phys.
82
(
1
),
729
(
2010
).
11.
B.
Sepulveda
,
J. B.
Gonzalez-Diaz
,
A.
Garcia-Martin
,
L. M.
Lechuga
, and
G.
Armelles
,
Phys. Rev. Lett.
104
(
14
),
147401
(
2010
).
12.
G.
Armelles
,
A.
Cebollada
,
A.
Garcia-Martin
, and
M. U.
Gonzalez
,
Adv. Opt. Mater.
1
(
1
),
10
35
(
2013
).
13.
G. X.
Du
,
T.
Mori
,
M.
Suzuki
,
S.
Saito
,
H.
Fukuda
, and
M.
Takahashi
,
J. Appl. Phys.
107
(
9
),
09A928
(
2010
).
14.
S.
Fan
,
Nat. Photonics
4
(
2
),
76
77
(
2010
).
15.
D. M.
Newman
,
M. L.
Wears
,
R. J.
Matelon
, and
I. R.
Hooper
,
J. Phys.: Condens. Matter
20
(
34
),
345230
(
2008
).
16.
N.
Maccaferri
,
A.
Berger
,
S.
Bonetti
,
V.
Bonanni
,
M.
Kataja
,
Q. H.
Qin
,
S.
van Dijken
,
Z.
Pirzadeh
,
A.
Dmitriev
,
J.
Nogués
,
J.
Åkerman
, and
P.
Vavassori
,
Phys. Rev. Lett.
111
(
16
),
167401
(
2013
).
17.
V.
Bonanni
,
S.
Bonetti
,
T.
Pakizeh
,
Z.
Pirzadeh
,
J.
Chen
,
J.
Nogués
,
P.
Vavassori
,
R.
Hillenbrand
,
J.
Åkerman
, and
A.
Dmitriev
,
Nano Lett.
11
(
12
),
5333
5338
(
2011
).
18.
A.
García-Martín
,
G.
Armelles
, and
S.
Pereira
,
Phys. Rev. B
71
(
20
),
205116
(
2005
).
19.
B.
Caballero
,
A.
García-Martín
, and
J. C.
Cuevas
,
Phys. Rev. B
85
(
24
),
245103
(
2012
).
20.
A.
Kosiorek
,
W.
Kandulski
,
P.
Chudzinski
,
K.
Kempa
, and
M.
Giersig
,
Nano Lett.
4
(
7
),
1359
1363
(
2004
).
21.
E. M.
Akinoglu
,
A. J.
Morfa
, and
M.
Giersig
,
Turk. J. Phys.
38
,
563
572
(
2014
).
22.
E. M.
Akinoglu
,
A. J.
Morfa
, and
M.
Giersig
,
Langmuir
30
(
41
),
12354
12361
(
2014
).
23.
P.
Fumagalli
, Ph.D. thesis No. 9082,
Swiss Federal Institute of Technology
,
1990
.
24.
R. W.
Wood
,
Phys. Rev.
48
(
12
),
928
936
(
1935
).
You do not currently have access to this content.