In this article we report on the fabrication of subwavelength antireflection structures on silicon substrates using a trilayer resist nanoimprint lithography and liftoff process. We have fabricated cone-shaped nanoscale silicon pillars with a continuous effective index gradient, which greatly enhances its antireflective performances. Our measurements show that the two-dimensional subwavelength structure effectively suppresses surface reflection over a wide spectral bandwidth and a large field of view. A reflectivity of 0.3% was measured at 632.8 nm wavelength, which is less than 1% of the flat silicon surface reflectivity.
REFERENCES
1.
2.
3.
Y.
Kanamori
, M.
Sasaki
, and K.
Hane
, Opt. Lett.
24
, 1422
(1999
).4.
5.
E. B.
Grann
, M. G.
Moharam
, and D. A.
Pommet
, J. Opt. Soc. Am. A
12
, 333
(1995
).6.
7.
8.
S. Y.
Chou
, P. R.
Krauss
, and P. J.
Renstrom
, Science
272
, 85
(1996
).9.
10.
C. C.
Striemer
and P. M.
Fauchet
, Appl. Phys. Lett.
81
, 2980
(2002
).11.
12.
13.
J.
Ferrera
, M. L.
Schattenburg
, and H. I.
Smith
, J. Vac. Sci. Technol. B
14
, 4009
(1996
).14.
15.
16.
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© 2003 American Vacuum Society.
2003
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