为了消除散斑现象,对随机漫射体抑制散斑的可行性进行了探讨.分析了“随机微透镜阵列”作为随机漫射体在光束控制和光能利用率方面的优越性,并提出了在光学系统中加入转动“随机微透镜阵列”的方式抑制散斑.对加入这种结构后屏幕上的散斑进行了测量,验证了此种方法可以将散斑对比度降低到1.15%,使人眼分辨不出激光散斑,提升了激光电视的观看效果,并与传统的转动匀光棒法进行对比,体现了此种方法出色的抑制散斑的能力.
In order to eliminate disturbing speckle phenomenon,this paper discussed the feasibility of speckle reduction,analyzed the superiority in beam control and energy efficiency using the "random micro-lens array" as the random diffuser,and proposed to set the rotating"random micro-lens array"in the optical system to reduce the speckle. The speckle on the screen was measured after setting this component,this method was verified to reduce speckle contrast to 1.15% so that the eyes couldn’t distinguish the laser speckle. This method can greatly improve the viewing quality of laser TV. Com-pared with traditional method of rotating uniform light stick,this method presented the excellent ability in speckle reduction.
参考文献
| [1] | 康玉思;刘伟奇;冯睿.激光电视的消干涉[J].中国激光,200935(04):615-619. |
| [2] | 李霞;康玉思.激光显示中散斑噪声的抑制[J].应用光学,201031(04):648-651. |
| [3] | 贾琼瑶;贺锋涛.激光投影显示中散斑均化问题的研究[J].激光技术,201337(03):400-403. |
| [4] | 张岳;郝丽;柳华.激光显示的原理与实现[J].光学精密工程,200614(03):402-405. |
| [5] | 田志辉;刘伟奇;李霞.激光显示中散斑的减弱[J].光学精密工程,200715(09):1366-1370. |
| [6] | Seime L;Hardeberg J Y.Colorimetric characterization of LCD and DLP projection displays[J].J ournal of the So-ciety for Information Display,200311(02):349-358. |
| [7] | Goodman J W.Speckle Phenomena in Optics:Theory and Applications[M].Roberts and Company Publishers,2007 |
| [8] | Francon M.Laser Speckle and Applications in Optics[M].Elsevier,2012 |
| [9] | Baribeau R;Rioux M.Influence of speckle on laser range finders[J].Applied Optics,199130(20):2873-2878. |
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