-
The performance prediction of freestanding blazed transmission grating is discussed using scalar diffraction theory, and grating design parameters are accodingly given. A freestanding transmission grating with a period of 1 m, duty cycle of 0.10.2, aspect ratio of about 100, thickness of 10 m and fractional area of 65% is successfully fabricated by holographic lithography and anisotropic wet etching. The size of a single die is 15 mm 15 mm divided into four 5 mm 5 mm windows. The diffraction efficiency of the fabricated grating is tested at the National Synchrotron Radiation Laboratory in a wavelength region of 550 nm. The wavelength scanning results show a strong blazing effect in the direction of specular reflection from mirror-like grating sidewalls, as expected. The measured and normalized diffraction efficiency is consistent with the theoretical prediction within 38%49% due to grating structural imperfections. These experimental results prove not only the concept of blazed transmission grating but also practicability of the fabrication process.
-
Keywords:
- freestanding transmission grating /
- blazing effect /
- holographic lithography /
- anisotropic wet etching
[1] Tananbaum HD,White J A,Bookbinder J A 1999 SPIE 3765 62
[2] McEntaffer R L, Cash W, Shipley A 2002 SPIE 4851 549
[3] McEntaffer R L, Osterman S, Cash W 2004 SPIE 5168 492
[4] McEntaffer R L, Cash W, Shipley A 2008 SPIE 7011 701107
[5] Flanagan K, Ahn M, Daivis J 2007 SPIE 6688 66880Y
[6] Heilmann R K, Ahn M, Bautz M W 2009 SPIE 7437 74370G
[7] Heilmann R K, Daivis J, Dewey D 2010 SPIE 7732 77321J
[8] Moharam M G, Grann E B, Pommet D A 1995 J. Opt. Soc. Am. A 121 68
[9] Ahn M, Heilmann R K, Schattenburg M L 2007 J.Vac. Technol. B 25 2593
[10] Ahn M, Heilmann R K, Schattenburg M L 2008 J. Vac. Technol. B 26 2179
[11] Qiu KQ, Xu X D, Liu Y 2008 Acta Phys. Sin. 57 6329 (in Chinese) [邱克强, 徐向东, 刘颖 2008 57 6329]
[12] Heilmann R K, Ahn M, Gullikson E M 2008 Optics Express 16 8658
-
[1] Tananbaum HD,White J A,Bookbinder J A 1999 SPIE 3765 62
[2] McEntaffer R L, Cash W, Shipley A 2002 SPIE 4851 549
[3] McEntaffer R L, Osterman S, Cash W 2004 SPIE 5168 492
[4] McEntaffer R L, Cash W, Shipley A 2008 SPIE 7011 701107
[5] Flanagan K, Ahn M, Daivis J 2007 SPIE 6688 66880Y
[6] Heilmann R K, Ahn M, Bautz M W 2009 SPIE 7437 74370G
[7] Heilmann R K, Daivis J, Dewey D 2010 SPIE 7732 77321J
[8] Moharam M G, Grann E B, Pommet D A 1995 J. Opt. Soc. Am. A 121 68
[9] Ahn M, Heilmann R K, Schattenburg M L 2007 J.Vac. Technol. B 25 2593
[10] Ahn M, Heilmann R K, Schattenburg M L 2008 J. Vac. Technol. B 26 2179
[11] Qiu KQ, Xu X D, Liu Y 2008 Acta Phys. Sin. 57 6329 (in Chinese) [邱克强, 徐向东, 刘颖 2008 57 6329]
[12] Heilmann R K, Ahn M, Gullikson E M 2008 Optics Express 16 8658
Catalog
Metrics
- Abstract views: 7895
- PDF Downloads: 672
- Cited By: 0