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In order to study the scattering characteristics of practical machining surfaces under the infrared laser irradiation, an experiment device is designed to measure the semispherical scattering characteristics of machining surfaces. The measuring system consists of a laser power meter with a resolution of 10 nW, a laser device of 1550 nm wavelength, and two precisely rotating platforms. The distributions of scattering power from the specimen surfaces with micro V-groove structures and different surface roughness values are measured under the irradiation of 1550 nm infrared laser. After the measured results are converted into the bidirectional reflectance distributional function, the effects of incident azimuthal angle, incident angle, and surface roughness on the scattering characteristics of surface of such a kind are comparatively analyzed, and the cause for the formation of special scattering field is also analyzed. The experimental results indicate that the surface texture, incident angle and surface roughness all affect the scattering property in a regular manner. The results contribute to the study of surface scattering characteristics and the application of laser technology to surfaces with V-groove structures.
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Keywords:
- scattering characteristics /
- bidirectional reflectance distributional function /
- infrared laser /
- machining surfaces
[1] Boschker J E, Tybell T 2012 Appl. Phys. Lett. 100 151604
[2] Frankot R T, Chellappa R 1988 TPAMI 10 439
[3] Fleming R W, Torralba A, Adelson E H 2004 J. Vision. 4 798
[4] Guo L X, Wang Y H, Wu Z S 2005 Acta Phys. Sin. 54 96 (in Chinese) [郭立新, 王运华, 吴振森 2005 物理学报 54 96]
[5] Zhang L H, Yang Y, Zang H G, Hu S J, Chen W B, Lu Y T 2008 Chinese J. Lasers 35 1001 (in Chinese) [张雷洪, 杨艳, 臧华国, 胡善江, 陈卫标, 陆雨田 2008 中国激光 35 1001]
[6] Ishimaru A 1991 Proc. IEEE 79 1359
[7] Kuo C H, Moghaddam M 2006 IEEE Antenn. Propag. M 54 2917
[8] Johnson J T 2002 IEEE Antenn. Propag. M 50 1361
[9] Li J, Guo L X, Zeng H, Han X B 2009 Chin. Phys. B 18 2757
[10] Zhang Y, Zhang X J, Fang G Y 2012 Acta Phys. Sin. 61 184203 (in Chinese) [张宇, 张晓娟, 方广有 2012 物理学报 61 184203]
[11] Nieto-Vesperinas M, Sánchez-Gil J A 1993 J. Opt. Soc. Am. A 10 150
[12] Yuan Y, Sun C M, Zhang X B 2010 Acta Phys. Sin. 59 2097 (in Chinese) [袁艳, 孙成明, 张修宝 2010 物理学报 59 2097]
[13] Ruiz-Cortés V, Dainty C 2012 J. Opt. Soc. Am. A 29 1154
[14] Cook R L, Torrance K E 1982 ACM Trans. Graph. 1 7
[15] Tagare H D, DeFigueiredo R J 1993 CVGIP: Image Understanding 57 265
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[1] Boschker J E, Tybell T 2012 Appl. Phys. Lett. 100 151604
[2] Frankot R T, Chellappa R 1988 TPAMI 10 439
[3] Fleming R W, Torralba A, Adelson E H 2004 J. Vision. 4 798
[4] Guo L X, Wang Y H, Wu Z S 2005 Acta Phys. Sin. 54 96 (in Chinese) [郭立新, 王运华, 吴振森 2005 物理学报 54 96]
[5] Zhang L H, Yang Y, Zang H G, Hu S J, Chen W B, Lu Y T 2008 Chinese J. Lasers 35 1001 (in Chinese) [张雷洪, 杨艳, 臧华国, 胡善江, 陈卫标, 陆雨田 2008 中国激光 35 1001]
[6] Ishimaru A 1991 Proc. IEEE 79 1359
[7] Kuo C H, Moghaddam M 2006 IEEE Antenn. Propag. M 54 2917
[8] Johnson J T 2002 IEEE Antenn. Propag. M 50 1361
[9] Li J, Guo L X, Zeng H, Han X B 2009 Chin. Phys. B 18 2757
[10] Zhang Y, Zhang X J, Fang G Y 2012 Acta Phys. Sin. 61 184203 (in Chinese) [张宇, 张晓娟, 方广有 2012 物理学报 61 184203]
[11] Nieto-Vesperinas M, Sánchez-Gil J A 1993 J. Opt. Soc. Am. A 10 150
[12] Yuan Y, Sun C M, Zhang X B 2010 Acta Phys. Sin. 59 2097 (in Chinese) [袁艳, 孙成明, 张修宝 2010 物理学报 59 2097]
[13] Ruiz-Cortés V, Dainty C 2012 J. Opt. Soc. Am. A 29 1154
[14] Cook R L, Torrance K E 1982 ACM Trans. Graph. 1 7
[15] Tagare H D, DeFigueiredo R J 1993 CVGIP: Image Understanding 57 265
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