共查询到15条相似文献,搜索用时 140 毫秒
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角度调谐薄膜滤光片因较大的波长调谐特性和良好的矩形度在密集波分复用系统中得到了广泛的应用。在倾斜入射时薄膜滤光片透射光谱的透射率和半宽不仅受到入射角度的影响,还跟滤光片两端面间的非平行度即楔角的大小有关。详细分析了楔角对对滤光片透射率以及半宽的影响,发现适当的楔角和角度取向能够改善倾斜入射状态下滤光片的透射光谱特性。设计制备了楔角为0.8°的楔形薄膜角度调谐滤光片,实验结果证明保持该楔角的方向与倾斜入射角度相同时会严重的劣化透射光谱的透射率和矩形度,方向相反时则可以提高光谱的透射率以及矩形度,并使器件的波长调谐范围增大约10 nm。 相似文献
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基于薄膜滤光片的新型可重构光分插复用器 总被引:2,自引:0,他引:2
研制了一种基于窄带薄膜滤光片的可重构的光分插复用器(ROADM).它由三个单芯光纤准直器、一对三端口光环形器、一对全反射镜和一片特别设计的角度调谐窄带多腔薄膜滤光片组成.通过步进电机的推动调制角度调谐滤光片的倾斜入射角度,从而实现了可选择波长上下路.对该可重构的光分插复用器进行了实验研究,并对该器件的串扰特性进行了详细的分析与计算.实验中得到的上下路信道隔离度大于34 dB,可调谐范围大于26nm,与理论计算结构相符.该种新型的ROADM具有结构简单、可调谐范围大、隔离度高、低偏振相关损耗、成本低等特点,可广泛应用于各种密集波分复用(DWDM)光网络. 相似文献
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基于遗传算法的斜入射窄带滤光片膜系优化设计 总被引:1,自引:1,他引:0
根据薄膜窄带滤光片在斜入射时的偏振特性,提出了基于遗传算法的斜入射薄膜窄带滤光片膜系优化设计方法.根据开发的程序,设计并制备了一组可用于18°倾斜入射的0.8纳米信道间隔的五腔薄膜窄带滤光片.该滤光片能有效地抑制斜入射时偏振光中心波长的分离现象,降低器件的偏振相关损耗,通过角度调谐能实现选择波长的改变.通过与针法设计的滤光片膜系相比,遗传算法得到的膜系具有更高的矩形度、更大的波长调谐范围以及更低的偏振相关损耗.实验结果表明其满足设计要求并有超过25纳米的波长调谐范围. 相似文献
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《光学学报》2020,(8)
根据薄膜窄带滤光片在倾斜入射时的特性,通过改进间隔层膜系结构来调整其等效折射率,可以设计出具有稳定透射峰值和带宽的角度调谐窄带滤光片。根据与密集波分复用(DWDM)系统相关的通道频率、插损、带宽、隔离度、偏振相关损耗(PDL)等八个标准,结合薄膜矩阵理论与新构造的评价函数,构建了一个可调谐滤光片膜系,通过改变各参数的权重因子,得到满足不同要求的最优膜系。利用构建的系统,优化设计了分别用于O波段和C波段100 GHz密集波分复用系统的具有高隔离度、低偏振相关损耗的角度调谐窄带滤光片。C波段膜系的最大调谐角度达11°,相邻通道隔离度可达-30.3 dB,最后对其透射特性以及影响调谐角度极限的因素进行了分析。 相似文献
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角度调谐滤光片特性分析及膜系设计 总被引:5,自引:2,他引:3
对窄带滤光片的倾斜入射特性作了分析.斜入射时其透射通带和峰值会向短波方向移动,透射曲线的稳定性跟滤光片的间隔层结构相关,多腔间使用相同的间隔层可以保证斜入射时有稳定的峰值透射率和带宽,利用该特点可以制备角度调谐窄带滤光片.透射光S和P偏振分量的中心波长随入射角度的增大出现分离现象,产生较大的偏振相关损耗.通过搭配不同厚度的高低折射率材料作为间隔层,改变其有效折射率,使其两个偏振分量的中心波长实现重合.设计了符合密集波分复用(Dense Wavelength Division Multiplexing,DWDM)系统要求的低偏振相关损耗四腔窄带角度调谐滤光片膜系,其可调谐范围达20 nm以上,并评估了所设计角度调谐滤光片的调谐性能. 相似文献
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一种用于密集波分复用系统中的可调谐液晶法布里-珀罗滤光片 总被引:1,自引:0,他引:1
基于液晶分子的双折射特性,设计并制作了一种结构简单的可用于波分复用系统中的可调谐液晶法布里-珀罗滤光片。对器件的光谱调谐特性进行了分析和模拟,并得到了液晶分子的折射率调制与其分子在电场作用下产生的转动角度之间的关系式。最后,对所设计的结构进行了制作和实验,测试结果显示了滤光片的性能受液晶分子的排列特性和法布里-珀罗腔的反射镜参量的影响较大,同时实验表明了这种利用向列型液晶分子作为法布里-珀罗腔内介质的可调谐滤光片在加电压调试下其调谐性能良好,调谐范围可覆盖C波段,透过峰的半峰全宽达到了0.8nm,实验结果与设计相吻合。 相似文献
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According to the oblique incidence characteristics of thin film narrowband filter, the stack of 100 GHz DWDM four cavities angle-tuned thin film filter has been designed and optimized. The two polarization modes’ central wavelengths of the thin film filter can be centered at the same one in oblique incidence, and it has a stable tuning range of 20 nm without the phenomenon of polarization central wavelength separation. Using this kind of angle-tuned thin film filter and the polarization beam-splitters, the tuning range of the angle-tuned thin film filter can be further expanded due to the reason that it can transmit only the s-polarization light. In this paper we also developed a three-port bandpass tunable filter device with new structure, which tuning range can cover the whole C-band and its adjacent channel isolation degree is high. The experiments show that the three-port tunable filter has an effective tuning range of 33 nm, and its adjacent channel isolation degree is more than 35 dB. It has a bright application opportunity for its flexibility and effective performance. 相似文献
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Feasibility of Non-Collinear TeO2 Acoustic-Optic Tunable Filters Used in the Optical Communication 下载免费PDF全文
The characteristics and the structure of TeO2 acoustic-optic tunable filter used in communication are discussed briefly based on the acoustic-optic theory and it is shown that a large optical incident angle and a long interaction length are suitable for the optical add/drop multiplexer based on the TeO2 acoustic-optic tunable filter. The distribution of acoustic energy flow in the device supports the large optical incident angle. The long interaction length depends on the change of the device structure to some degree. The measured results of the samples show that the diffraction efficiency reaches at 96% in the tuning range larger than lOOnm and the bandwidth is about 2nm. It can be found that there is a good consistency with the basic theoretical mode. The optimized design result shows that the diffraction efficiency can arrive at 100%, and the bandwidth can be less than 0.4nm. Thus, the non-collinear TeO2 acoustic-optic tunable filter can play an important role in the coming general optical network. 相似文献
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Angle-tuned thin film bandpass filter is widely used in DWDM system. In oblique incidence, the bandwidths and central wavelengths of the P-polarization and S-polarization light will separate obviously, which will cause serious polarization dependent loss. These phenomena of the polarization sensitivities are analyzed and a novel non-polarization 100 GHz four-cavity narrowband dielectric thin film stack used in oblique incidence is proposed. The simulation results show that it can eliminate the polarization bandwidths and central wavelengths separation within the incident angle from 0° to 25°, and its tunable range can cover the whole C-band. 相似文献
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In this paper, an iterative formula for the reflection coefficient of the multi-layer thin film is deduced and the design of multi-layer thin film gires-tournois interferometer optical all pass filter(GTI-OAPF) is discussed. The group delay τm ranges from 0.06 to 460 ps and the bandwidth Δω ranges from 0.068 to 0.0000079 (1015 rad/s). By changing the incident angle θ0, the multi-channel dispersion compensation may be achieved. 相似文献