排序方式: 共有47条查询结果,搜索用时 0 毫秒
1.
The changes of holographic characteristics of photopolymer induced by temperature are studied experi-mentally. The results show that the exposure sensitivity increases with the increase of temperature. Themaximum diffraction efficiency and the final maximum diffraction efficiency increase with the increaseof temperature when the temperature is lower than Tg (glass transition temperature), while they decreasewith the increase of temperature when the temperature is higher than Tg. The effect of the change oftemperature on the saturation refractive index modulation is very weak. 相似文献
2.
掺杂PbSe/PVA量子点的光致聚合物全息特性 总被引:1,自引:0,他引:1
通过原位合成法以聚乙烯醇辅助合成了6.5nm、10nm和15nm的PbSe量子点,研究了掺杂PbSe量子点的光致聚合物的全息特性.将三种尺寸的PbSe量子点按不同浓度分别掺入光致聚合物中,制成无机-有机复合型光致聚合物膜,并对其全息性能进行研究.复合聚合物膜的UV-Vis吸收光谱表明掺入的PbSe量子点并未与聚合物中的有机组分发生化学反应.采用氩氪离子激光器输出的647nm红光研究了复合聚合物膜的透过率和全息记录光栅的布喇格偏移与衍射效率.透过率曲线表明PbSe量子点在复合聚合物膜中分散良好,膜表面均匀.由于PbSe量子点在聚合物链中起支撑作用,复合聚合物膜在全息记录过程中不易发生形变,从而增加了聚合物膜的抗缩皱能力.衍射效率曲线表明掺入PbSe量子点的复合聚合物膜的衍射效率比未掺杂的有所提高.此外,体系存在一个最优值,当掺入平均粒径为10nm且浓度为3.6×10-6 mol/L的PbSe量子点时,样品的透过率达到84%,衍射效率从67.2%提升到89.7%,缩皱率降低到0.8%,极大提高了材料的全息性能. 相似文献
3.
研究了光致聚合物的光化学反应理论模型及其动力学参量。合成了染料藻红B和亚甲基蓝作为联合光敏剂共同敏化的全息光存储光致聚合物材料。对材料测试分别得到在曝光波长为633 nm与曝光强度为65 mW/cm2时,透射率随曝光条件的变化关系以及材料各光化学参量。结果表明,随着曝光波长与曝光强度的增加,光致聚合物的光化漂白速率常数k与量子产率Φ增大,当曝光强度为65 mW/cm2时透射率在短波长下出现了下降,光化漂白速率常数k出现负值,而摩尔吸收系数ε在条件不同时则表现了不同的变化趋势。 相似文献
4.
5.
6.
7.
8.
9.
Holographic parameters and photobleaching kinetics of the
photopolymers with five different amine photoinitiators are studied.
The maximum values of diffraction efficiency, photobleaching
coefficient and quantum yield follow the sequence: Triethanolamine
(TEA)> Diethanolamine (DEA)> Ethanolamine (EA)> Triethylamine
(TETN)> Diethylamine (DETN). The holographic capabilities of
photopolymer performances are determined by the number of functional
groups in the amine molecular structure. There is an optimum
proportion of the photoinitiator, the photosensitizer and the
monomer in the test of holographic parameters with different amine
concentrations. The maximum diffraction efficiency is 59.26\%,
sensitivity is 1.72\times 10^{ - 3}~cm^{2}/mJ, and the maximum
refractive modulation index is 4.64\times 10^{ - 4}. 相似文献
10.