排序方式: 共有71条查询结果,搜索用时 15 毫秒
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应用带完全匹配层边界条件的全矢量有限元方法,分析了高折射率椭圆芯布拉格光纤的偏振特性,详细讨论了光纤结构参量对模式双折射度以及群速度走离的影响,结果发现:高折射率椭圆芯布拉格光纤的模式双折射度可达10-2量级,比传统保偏光纤至少高出一个量级,并且表现出不同于传统保偏光纤的群速度走离特性;在保持较高双折射度的同时,通过合理的结构设计,可在一定的波长处灵活地获得较大的群速度走离或零走离特性,具有重要的潜在应用价值;最后,简要分析了低折射率区域的折射率变化对偏振特性的影响;研究结果有助于设计高性能的微结构保偏光纤。 相似文献
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Spectroscopy Investigation on Conformational Transition of Tea Glycoconjugate from Green Tea 总被引:5,自引:0,他引:5
The conformational transition of a new glycoconjugate, tea glycoconjugate (TGC), was investigated by spectroscopy techniques including circular dichroism (CD) and ultraviolet (UV) spectroscopy. The solution behaviors of TGC in the mediums of different temperature, pH value, and ions were compared. Results showed that the native conformation of TGC was partially ordered. The CD value and UV absorbance of TGC altered with the change of pH value, temperature, the addition of ions, and also accompanied order-disorder transition. Especially the conditions with temperature higher than the glass transition temperature (Tg=62℃), higher pH value or lower pH value will have the most impact on the conformation of TGC, which will destroy the hydrogen bonds between the TGC molecules. The results indicated that the outside factors play important roles on the stability of the conformation of TGC. 相似文献
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提出一种偏振光干涉的光纤光栅应变测量方法,该方法能解决光纤光栅应变和温度测量时的交叉敏感问题。对于钒酸钇晶体偏振光干涉仪,如果选择两个能使干涉仪产生180°相位差的不同中心波长的光纤光栅,一个用于应变测量,一个用于补偿温度,就能很好地解决光纤光栅应变测量时的温度交叉敏感问题。分析了构成偏振光干涉仪的晶体的厚度对应变偏差的影响。理论计算和试验结果显示,当晶体厚度为0.5 mm时温度对应变测量的交叉敏感现象被压缩到了1.6%,相当于0.13με/℃。进一步的仿真分析发现当晶体厚度为0.1 mm时交叉敏感现象将被压缩到0.08%,相当于0.0067με/℃。小的晶体厚度有利于减小交叉敏感现象,但小厚度的晶体加工困难,为此分析了双晶体结构的方案。 相似文献
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建立了以苯硼酸为衍生试剂,柱前衍生-高效液相色谱测定肥料中24-表芸苔素内酯(24-EBL)和28-高芸苔素内酯(28-HBR)的方法。样品采用甲醇作为提取溶剂,常温条件下用苯硼酸衍生30 min,乙腈/水(85/15, V/V)为流动相,在222 nm波长下进行分析。结果表明:在0~1250 mg/kg范围内线性关系良好,相关系数(r2)≥0.999。24-EBL和28-HBR的检出限分别为0.46和0.51 mg/kg。样品加标回收率为67.1%~128.5%,批间相对标准偏差为0.09%~2.4%。该方法满足2种芸苔素内酯异构体在肥料内定量分析的要求。 相似文献
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Pulse position modulation(PPM) is introduced downstream of the reflective semiconductor optical amplifier (RSOA)-based single-fiber full-duplex bidirectional wavelength division multiplex passive optical network(WDM PON) to suppress the interference brought by the remodulation effect in the RSOA, Rayleigh backscattering,and reflection of the connection devices.In addition,because of the powerefficient characteristic of the PPM-encoded signals,the power budget shows clear improvement.As the experimental tests indicate,with~6 dB extinction ratio(ER) in the downstream signal,the receiving sensitivity of the PPM-encoded channel is~2.6 and~3 dB higher than that of the NRZ(Non-return to zero)-encoded channel in the downlink and uplink,respectively. 相似文献
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