封装硅胶对深海LED光源出光光通量的影响
[1] 楼志斌. 半导体照明技术在水下探测设备中的应用研究 [J]. 船舶工程, 2011,33(6):96-99.
LOU Z B. Research & application of solid state lighting in underwater exploration equipment [J]. Ship Eng., 2011,33(6):96-99. (in Chinese)
[2] HARDY K R,OLSSON M S,LAKIN B P,et al.. Advances in high brightness light emitting diodes in underwater applications [C]. Proceedings of OCEANS 2008,Quebec City,Canada, 2008:1-5.
[3] HARDY K R,OLSSON M S,SANDERSON J R,et al.. High brightness light emitting diodes for ocean applications [C]. Proceedings of OCEANS 2007,Vancouver,BC,Canada, 2007:1-4.
[4] 杨朝伟. 基于OMAP平台的深海照相系统研制 [D]. 杭州:杭州电子技术大学, 2014.
YANG C W. Research and Design of Deepsea Camera System Based on OMAP Platform [D]. Hangzhou:Hangzhou Dianzi University, 2014. (in Chinese)
[5] 孙传东,陈良益,高立民,等. 水的光学特性及其对水下成像的影响 [J]. 应用光学, 2000,21(4):39-46.
[6] JONASZ M,PRANDKE H. Comparison of measured and computed light scattering in the Baltic [J]. Tellus B:Chem. Phys. Meteorol., 1986,38(2):144-157.
[7] JONASZ M,FOURNIER G R. Light Scattering by Particles in Water [M]. Amsterdam:Academic Press, 2007.
[8] SHYBANOV E B,HALTRIN V I. Scattering of light by hydrosol particles suspended in coastal waters [C]. Proceedings of OCEANS02 MTS/IEEE,Biloxi,MI,USA, 2002:2374-2382.
[9] SUN X Y,ZHANG J H,ZHANG X,et al.. A green-yellow emitting β-Sr2SiO4∶Eu2+ phosphor for near ultraviolet chip white-light-emitting diode [J]. J. Rare Earths, 2008,26(3):421-424.
[10] 杨申申,王瑶,王璇,等. 照明技术在潜水器中的应用 [J]. 灯与照明, 2016,40(1):33-36.
YANG S S,WANG Y,WANG X,et al.. Application of underwater lighting for submersible [J]. Light Light., 2016,40(1):33-36. (in Chinese)
[11] HARDY K R,OLSSON M S,SANDERSON J R,et al.. Application of high power light emitting diodes for submerged illumination [EB/OL]. (2008-02-20). https://www.deepsea.com/wp-content/uploads/2008_Application_of_High_Power_LEDs_Paper_UI08.pdf.
[12] OLSSON M,HARDY K,SANDERSON J. Underwater applications of high-power light-emitting diodes [J]. Sea Technol., 2007,48(8):31-34.
[13] SHEN S C,HUANG H J,CHAO C C,et al.. Design and analysis of a high-intensity LED lighting module for underwater illumination [J]. Appl. Ocean Res., 2013,39:89-96.
[14] MCBRIDEL R,SCHOLFIELD J T. Solid-state pressure-tolerant illumination for MBARIs underwater low-light imaging system [J]. J. Disp. Technol., 2007,3(2):149-154.
[15] 李意,张建华,楼志斌,等. 深海LED照明灯技术综述 [J]. 应用技术学报, 2017,17(3):237-241.
LI Y,ZHANG J H,LOU Z B,et al.. A generalization of deep sea LEDs lighting technology [J]. J. Technol., 2017,17(3):237-241. (in Chinese)
[16] OLSSON M S,HARDY K R,SANDERSON Ⅳ J R,et al.. Deep submersible light with pressure compensation:United States,8033677 [P]. 2011-10-11.
[17] OLSSON M S,SIMMONS J E,SANDERSON IV J R,et al.. Light fixture with internally-loaded multilayer stack for pressure transfer:United States,9574760 [P]. 2017-02-21.
[18] 张巧芬. 非成像光学系统的LED光源优化设计与分析 [D]. 广州:广东工业大学, 2014.
ZHANG Q F. Optimization Design and Analysis on LED Light Source Design in Nonimaging Optical Illumination System [D]. Guangzhou:Guangdong University of Technology, 2014. (in Chinese)
[19] 卓宁泽,张寅,赵宝洲,等. LED集成封装的一次光学设计与优化 [J]. 光电工程, 2013,40(3):129-134.
陈彤, 汪飞, 殷录桥, 张建华. 封装硅胶对深海LED光源出光光通量的影响[J]. 发光学报, 2020, 41(10): 1302. CHEN Tong, WANG Fei, YIN Lu-qiao, ZHANG Jian-hua. Influence of Encapsulated Silica Gel on Output Luminous Flux of Deep Sea LED Light Source[J]. Chinese Journal of Luminescence, 2020, 41(10): 1302.