This paper presents a new method for the generation of cross-scale laser interference patterns and the fabrication of moth-eye structures on silicon. In the method, moth-eye structures were produced on a surface of silicon wafer using direct six-beam laser interference lithography to improve the antireflection performance of the material surface. The periodic dot arrays of the moth-eye structures were formed due to the ablation of the irradiance distribution of interference patterns on the wafer surface. The shape, size, and distribution of the moth-eye structures can be adjusted by controlling the wavelength, incidence angles, and exposure doses in a direct six-beam laser interference lithography setup. The theoretical and experimental results have shown that direct six-beam laser interference lithography can provide a way to fabricate cross-scale moth-eye structures for antireflection applications.

1.
D. G.
Stavenga
,
S.
Foletti
,
G.
Palasantzas
, and
K.
Arikawa
,
Proc. R. Soc. B
273
,
661
667
(
2006
).
2.
S. J.
Wilson
and
M. C.
Hutley
,
J. Mod. Opt.
29
,
993
(
1982
).
3.
B. S.
Thornton
,
J. Opt. Soc. Am.
65
,
267
(
1975
).
4.
M. E.
Motamedi
,
W. H.
Southwell
, and
W. J.
Gunning
,
Appl. Opt.
31
,
4371
(
1992
).
5.
W. H.
Southwell
,
J. Opt. Soc. Am.
8
,
549
(
1991
).
6.
J. Y. L.
Ma
and
L. C.
Robinson
,
J. Mod. Opt.
30
,
1685
(
1983
).
7.
Y. M.
Song
,
S. J.
Jang
,
J. S.
Yu
, and
Y. T.
Lee
,
Small
6
,
984
(
2010
).
8.
S. S.
Oh
,
C. G.
Choi
, and
Y. S.
Kim
,
Microelectron. Eng.
87
,
2328
(
2010
).
9.
E. J.
Hong
,
K. J.
Byeon
,
H.
Park
,
J.
Hwang
,
H.
Lee
,
K.
Choi
, and
G. Y.
Jung
,
Mater. Sci. Eng. A
163
,
170
(
2009
).
10.
Q.
Xie
,
M. H.
Hong
,
H. L.
Tan
,
G. X.
Chen
,
L. P.
Shi
, and
T. C.
Chong
,
J. Alloys Compd.
449
,
261
(
2008
).
11.
L. F.
Johnson
,
G. W.
Kammlott
, and
K. A.
Ingersoll
,
Appl. Opt.
17
,
1165
(
1978
).
12.
Z.
Wang
,
J.
Zhang
,
C. S.
Peng
, and
C.
Tan
, in
Proceedings of IEEE Conference on Mechatronics and Automation
(
Institute of Electrical and Electronics Engineers
,
Harbin
,
2007
), pp.
434
439
.
13.
S. R. J.
Brueck
, in
Proceedings of Institute of Electrical and Electronics Engineers
(
New Mexico University
,
Albuquerque
,
2005
), pp.
1704
1721
.
14.
N. D.
Lai
,
W. P.
Liang
,
J. H.
Lin
,
C. C.
Hsu
, and
C. H.
Lin
,
Opt. Lett.
13
,
9605
(
2005
).
15.
J. H.
Moon
and
S.
Yang
,
J. Macromol. Sci., Polym. Rev.
45
,
351
(
2005
).
16.
R.
Murillo
,
H. A.
van Wolferen
,
L.
Abelmann
, and
J. C.
Lodder
,
Miner. Eng.
78–79
,
260
(
2005
).
17.
C. G.
Chen
,
R. K.
Heilmann
,
C.
Joo
,
P. T.
Konkola
,
G. S.
Pati
, and
M. L.
Schattenburg
,
J. Vac. Sci. Technol., B
20
,
3071
(
2002
).
18.
C. P.
Fucetola
,
H.
Korre
, and
K. K.
Berggren
,
J. Vac. Sci. Technol., B
27
,
2958
(
2009
).
19.
M.
Ellman
,
A.
Rodríguez
,
N.
Pérez
,
M.
Echeverria
,
Y. K.
Verevkin
,
C. S.
Peng
,
T.
Berthou
,
Z.
Wang
,
S. M.
Olaizola
, and
I.
Ayerdi
,
Appl. Surf. Sci.
255
,
5537
(
2009
).
20.
D.
Wang
,
Z.
Wang
,
Z.
Zhang
,
Y.
Yue
,
D.
Li
, and
C.
Maple
,
Appl. Surf. Sci.
282
,
67
(
2013
).
21.
L.
Wang
,
B. B.
Xu
,
Q. D.
Chen
,
Z. C.
Ma
,
R.
Zhang
,
Q. X.
Liu
, and
H. B.
Sun
,
Opt. Lett.
36
,
3305
(
2011
).
23.
S. Z.
Su
,
A.
Rodriguez
,
S. M.
Olaizola
,
C. S.
Peng
,
C.
Tan
,
Y. K.
Verevkin
,
T.
Berthoud
, and
S.
Tisserand
,
Proc. SPIE
6593
,
65930
G (
2007
).
24.
J. H. Z.
Moon
,
J.
Ford
, and
S.
Yang
,
Polym. Adv. Technol.
17
,
83
(
2006
).
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