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Large-size echelle grating can have extremely high spectral resolution due to its large aperture and high diffractive order. To achieve high-performance large-size echelle grating, the preparation of high-quality aluminum film with large-area uniformity is one of the most important factors. In this paper, for the first time so far as we know, we report the preparation process of high-quality aluminum with large-area uniformity in details. First, we simulate theoretically the influence of the position and emission characteristic of the evaporation source, as well as the fixture height, on aluminum film uniformity. Then, we study the influence of some key parameters of the evaporation process (such as the evaporation height and rate) on aluminum film quality and uniformity. Finally, under the optimal conditions, we prepared successfully the high-quality aluminum film with its thickness being larger than 10 m and uniformity fluctuations less than 1% within a diameter of 700 mm.
[1] [2] George R H 1949 J. Opt. Soc. Am. 39 522
[3] George R H, James E A, Jean C 1952 J. Opt. Soc. Am. 42 706
[4] [5] [6] William L 1970 Applied Optics 9 23
[7] [8] Vogt S 1987 Astron Soc. Pac. 99 12
[9] [10] George R H, Erwin G L, Robert S W 1976 Applied Optics 15 971
[11] Zhang F C, Yu H L, Zhou J X 2013 Journal of Changchun University of Technology (Natural Science Edition) 34 195 (in Chinese) [张方程, 于海利, 周敬萱2013 长春工业大学学报 (自然科学版) 34 195]
[12] [13] MARTA K E G, ZORICA C O 2002 Appl Spectrosc 56 24
[14] [15] Shikha A, Gerald S F 1998 J. Electrochem. Soc. 145 28
[16] [17] Angus H M 2012 Thin-Film Optical Filters (4th Ed.) (New York: CRC Press) 595625
[18] [19] Robbie K, Brett M J 1997 J. Vac. Sci. Technol. A 15 1460
[20] [21] Toader O, John S 2001 Science 292 1133
[22] [23] [24] Kennedy S R, Brett M J 2003 Applied Optics 42 45
[25] [26] Shen Z C, Shao J D, Wang Y J, Fan Z X 2005 Acta Phys. Sin. 54 42 (in Chinese) [沈自才, 邵建达, 王英剑, 范正修 2005 54 42]
[27] [28] Xu X G, Zhang D L, Wu Y, Zhang X, Li X Q, Yang H L, Jiang Y 2012 Rare Metals 31 107
[29] Zhang D L, Xu X G, Wang W, Zhang X, Yang H L, Wu Y, Ma C Z, Jiang Y 2012 Rare Metals 31 112
[30] [31] [32] Sun X F, Wei C P, Li Q Y 2009 Acta Phys. Sin. 58 16 (in Chinese) [孙小飞, 魏长平, 李启源 2009 58 16]
[33] Liu H, Wei Q, He S Y, Zhao D 2006 Chin. Phys. 15 1086
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[1] [2] George R H 1949 J. Opt. Soc. Am. 39 522
[3] George R H, James E A, Jean C 1952 J. Opt. Soc. Am. 42 706
[4] [5] [6] William L 1970 Applied Optics 9 23
[7] [8] Vogt S 1987 Astron Soc. Pac. 99 12
[9] [10] George R H, Erwin G L, Robert S W 1976 Applied Optics 15 971
[11] Zhang F C, Yu H L, Zhou J X 2013 Journal of Changchun University of Technology (Natural Science Edition) 34 195 (in Chinese) [张方程, 于海利, 周敬萱2013 长春工业大学学报 (自然科学版) 34 195]
[12] [13] MARTA K E G, ZORICA C O 2002 Appl Spectrosc 56 24
[14] [15] Shikha A, Gerald S F 1998 J. Electrochem. Soc. 145 28
[16] [17] Angus H M 2012 Thin-Film Optical Filters (4th Ed.) (New York: CRC Press) 595625
[18] [19] Robbie K, Brett M J 1997 J. Vac. Sci. Technol. A 15 1460
[20] [21] Toader O, John S 2001 Science 292 1133
[22] [23] [24] Kennedy S R, Brett M J 2003 Applied Optics 42 45
[25] [26] Shen Z C, Shao J D, Wang Y J, Fan Z X 2005 Acta Phys. Sin. 54 42 (in Chinese) [沈自才, 邵建达, 王英剑, 范正修 2005 54 42]
[27] [28] Xu X G, Zhang D L, Wu Y, Zhang X, Li X Q, Yang H L, Jiang Y 2012 Rare Metals 31 107
[29] Zhang D L, Xu X G, Wang W, Zhang X, Yang H L, Wu Y, Ma C Z, Jiang Y 2012 Rare Metals 31 112
[30] [31] [32] Sun X F, Wei C P, Li Q Y 2009 Acta Phys. Sin. 58 16 (in Chinese) [孙小飞, 魏长平, 李启源 2009 58 16]
[33] Liu H, Wei Q, He S Y, Zhao D 2006 Chin. Phys. 15 1086
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