共查询到17条相似文献,搜索用时 515 毫秒
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制备了一种对整个可见光波段都敏感的光全息存储材料,并研究了该材料的透过率、衍射效率、灵敏度等全息特性.用He-Ne激光器633 nm和Ar+ 激光器514 nm,488 nm,476 nm四种波长的光曝光,材料的饱和衍射效率最大为66%,最小为48%;最高灵敏度为8.06×10-3 cm2/mJ.最高折射率调制度为4.22×10-4.用多波长存储时,不同波长的光可存储多幅全息图,且再现图像清晰.结果表明,该材料是较好的高密度数字全息存储材料. 相似文献
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一种核黄素敏化的宽带全息记录材料 总被引:1,自引:1,他引:1
制备了一种核黄素敏化的以聚乙烯醇为基质的新型全息存储材料,并研究了材料的全息特性.用Ar+激光器激发的488 nm的蓝光对材料曝光,结果表明该材料具有较高的衍射效率和曝光灵敏度,衍射效率高达53%,灵敏度为3.3 cm2/J,折射率调制度为4.5×10-4.研究了材料的透过率与随时间和入射角度变化的关系,说明在曝光记录过程中有噪音光栅生成.在存储介质膜中存储了全息图像,再现图像较为清晰,说明该材料适合用作高密度全息存储介质. 相似文献
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制备了一种三乙醇胺与N-苯基苷氨酸为共同引发剂的丙烯酰胺基光致聚合物全息存储材料,并用He-Ne 激光器633 nm波长的光对样品进行曝光测试.实验表明,与单引发剂的光致聚合物相比,薄膜的质量有一定的提高,在曝光灵敏度变化不大的情况下,衍射效率有很大提高.优化两种引发剂浓度后,此种共同引发的光致聚合物材料呈现的衍射效率达到54%,曝光灵敏度为1.85×10-2cm2/mJ.还研究了此种光致聚合物的透过率随曝光时间和曝光强度的变化,说明此种光致聚合物材料内部均匀性好,对光的散射小. 相似文献
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通过双醚化反应、氯甲基化反应以及在强碱性条件下进行的脱氯化氢反应制备聚(2-甲氧基-5-丁氧基)对苯乙炔(PMOBOPV)、聚(2-甲氧基-5-己氧基)对苯乙炔(PMOHOPV)、聚(2,5-二丁氧基)对苯乙炔(PDBOPV)和聚(2,5-二己氧基)对苯乙炔(PDHOPV)等四种可溶性聚对苯乙炔(PPV)衍生物,通过紫外-可见吸收光谱对产物分子结构进行表征.结果显示,PMOBOPV、PMOHOPV、PDBOPV和PDHOPV的共轭π电子发生π → π* 跃迁的吸收峰分别位于491 nm、495nm、504nm和510nm处,相应的光学禁带宽度分别为2.23eV、2.18eV、2.12eV和2.07eV.利用简并四波混频技术测量PPV衍生物的三阶非线性光学性能,探讨了分子结构对PPV衍生物三阶非线性极化率(χ(3))的影响.研究发现,激发波长为532 nm时,PMOBOPV、PMOHOPV、PDBOPV和PDHOPV的共振χ(3)值分别为3.45×10-10、5.13×10-10、7.15×10-10和9.61×10-10 esu;激发波长为1064 nm时,它们的非共振χ(3)值分别为1.09×10-11、1.42×10-11、1.62×10-11和2.14×10-11 esu. 相似文献
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光折变多重体光栅的制作及应用 总被引:4,自引:3,他引:1
根据光折变多重体光栅的滤波原理,在10×10×10 mm3的LiNbO3∶Fe晶体中利用循环曝光法写入了光栅波矢夹角为0.037°且衍射效率均衡的8重体光栅,实验上证实了光写入多重光折变体光栅应用于波分复用系统的可行性.利用LiNbO3∶Fe晶体制作了一个原理性双通道波分复用器,成功地实现了对相同方向入射的波长分别为635 nm和650 nm的两束光的有效分离,并根据布喇格条件,将光折变体光栅应用于光波波长的测量,测量精度可达10 pm量级. 相似文献
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LiNbO3∶Cr∶Cu晶体吸收特性及非挥发全息存储研究 总被引:1,自引:1,他引:0
研究了LiNbO3∶Cr∶Cu晶体的吸收特性,发现LiNbO3∶Cr∶Cu(含0.14 wt.% Cr2O3 和 0.011 wt.% CuO)晶体存在两个明显的吸收峰,中心波长分别位于480 nm和660 nm; 随着Cr的含量逐渐减小,Cu的含量逐渐增大,短波段不存在明显吸收峰,掺Cr的含量越大,中心波长在660 nm处的吸收越大;633 nm红光虽然位于中心波长为660 nm的吸收峰内,但它无助于光折变过程.分别采用390 nm紫外光和488 nm蓝光作为敏化光,514 nm绿光作为记录光的记录方案,实现了非挥发全息记录,掺入适量的Cr( 比如NCr=2.795×1025 m-3,NCr/ NCu=1)有助于全息记录性能的提高. 相似文献
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金原子团簇的分频散射光谱研究 总被引:5,自引:0,他引:5
液相金原子团簇是一种非线性光学介质.它在580nm处产生一个最强共振散射峰.当激发波长为290nm(1.03×1015Hz)时,液相金原子团簇在580nm(1/2×1.03×1015Hz)和870nm(1/3×1.03×1015Hz)分别产生一个1/2分频和1/3分频散射峰;当激发波长为580nm(5.02×1014Hz)时在290nm(2×5.02×10-14Hz)和870nm(2/3×5.02×1014Hz)分别产生一个2倍频和2/3分频散射峰;当激发波长为870nm(3.34×1014Hz)时在580nm(3/2×3.34×1014Hz)和290nm(3×3.34×1014Hz)分别产生一个3/2分频和3倍频散射峰.分频散射和倍频散射峰与共振散射峰具有相似的散射行为.从激励光与液相金原子团簇相互作用的运动方程出发,根据傅氏变换理论,较好地解释了液相金原子团簇产生的一些非线性散射光谱. 相似文献
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A novel wideband sensitive dry holographic photopolymer sensitized by rose bengal (RB) and methylene blue (MB) is fabricated, the holographic storage characteristics of which are investigated under different exposure wavelengths. The result shows that the sensitive spectral band exceeds 200 nm in visible light range, the maximum diffraction efficiency under different exposure wavelengths is more than 40% and decreases with the decrease of exposure wavelength, the exposure sensitivity is not change with the exposure wavelength.This photopolymer is appropriate for wavelength multiplexing or multi-wavelength recording in digital holographic storage. 相似文献
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Holographic storage properties of iron-doped and cerium/iron-doped LiNbO3 with different doping concentrations and treatment conditions have been measured for different recording wavelengths. The results show that at recording wavelengths of 532 nm and 633 nm the holographic storage properties of Ce:Fe:LiNbO3 are generally better than those of Fe:LiNbO3. 相似文献
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JIANG Zhuqing LIU Guoqing LIU Jinwei YUAN Quan TAO Shiquan 《Chinese Journal of Lasers》1999,8(3):263-267
Holographic storage properties of iron-doped and cerium/iron-doped LiNbO3 with different doping concentrations and treatment conditions have been measured for different recording wavelengths. The results show that at recording wavelengths of 532 nm and 633 nm the holographic storage properties of Ce:Fe:LiNbO3 are generally better than those of Fe:LiNbO3. 相似文献
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E. Luvsandamdin S. Spießberger M. Schiemangk A. Sahm G. Mura A. Wicht A. Peters G. Erbert G. Tränkle 《Applied physics. B, Lasers and optics》2013,111(2):255-260
We present a micro-integrated extended cavity diode laser module for experiments on rubidium Bose–Einstein condensates and atom interferometry at 780.24 nm onboard a sounding rocket. The micro-integration concept is optimized for space application. The laser chip, micro-lenses, a volume holographic Bragg grating, micro-temperature sensors and a micro-thermoelectric cooler are integrated on an aluminium nitride ceramic micro-optical bench with a foot print of only 50 × 10 mm2. Moveable parts are omitted to allow for a very compact and robust design. The laser module provides an output power of more than 120 mW at a short term (170 μs) linewidth of 54 kHz, both full-width-at-half-maximum. The laser can be coarsely tuned by 44 GHz with a continuous tuning range of 31 GHz. The micro-integration technology presented here can be transferred to other wavelengths. 相似文献
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Véronique Zambon 《Optics Communications》2006,264(1):180-186
Tunable dual-wavelength operation of a laser diode has been achieved using a dual-period holographic element. The holographic element was positioned in Littrow configuration in an external cavity. The design of this holographic element was based on the superposition of a constant-period grating and a variable-period grating on the same location in a photoresist. We observed simultaneous emission at two wavelengths from a visible semiconductor laser operated with this holographic element. The spectral separation of the dual-wavelength output was varied from 0.76 to 6.27 nm by a simple translation of the holographic element. 相似文献