共查询到20条相似文献,搜索用时 134 毫秒
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全面介绍了目前密集波分复用系统中的主流光滤波技术,包括介质薄膜滤波器、阵列波导光栅、光纤光栅、熔锥器件、奇偶交错滤波器和声光可调谐滤波器,从系统应用的角度分析了光滤波技术的发展趋势。 相似文献
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为了提高电力电缆测温系统的测量精度和速度,提出了以光纤梳状滤波器代替参考光栅提供拟合数据参考点,采用最小二乘法拟合光纤Bragg光栅波长和F-P可调谐滤波器调谐电压的线性关系,通过F-P可调谐滤波器解调FBG传感器中心波长变化的方法,完成对电力电缆温度的测量.研究表明,光纤梳状滤波器能够代替多个恒温参考光栅实现波长标定,对反射波长的测量误差<5pm,温度均方误差≤0.7 ℃. 相似文献
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密集波分复用光网络的不断演进带动节点器件技术飞速发展,光滤波技术作为其中的关键之一已不仅仅是原来狭义的复用/解复用器的概念,其涵盖的范畴越来越多,包括光分插复用(OADM)、光交叉连接(OXC)、增益平坦滤波(GFF)、色散补偿(DC)、泵浦合波器(PBC)、动态增益均衡器(DGE)、波长锁定器(Wave locker)等。滤波手段层出不穷,多腔介质膜滤波器(MDTFF)、阵列波导光栅(AWG)、光纤布拉格光栅(FBG)、熔融拉锥器件(FBT)、奇偶交错滤波器(Interleaver),此外还有声光可调谐滤波器(AOTF)、闪耀光栅、全息光栅、全光纤March-Zehnder干涉… 相似文献
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高频超声波在紫外写入的光纤布拉格光栅(FBG)上传播,产生的长周期超声光栅调制光纤光栅,形成光纤超声超结构光栅。利用模式耦合理论,分析了光纤超声超结构光栅的光谱特性,得出光纤超声超结构光栅的反射谱存在多个反射峰,其反射峰的波长间隔由超声波的频率决定。因此,可以通过改变超声波的频率,调节一阶反射谱的反射波长,从而实现宽调谐范围的快速波长可调滤波器。该滤波器与通常的声光可调滤波器相比,带宽更窄,调谐速度更快。 相似文献
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Ghafouri-Shiraz H. Lew S.-H. Kobayashi S. Kamata I.N. Yamada K. 《Quantum Electronics, IEEE Journal of》1997,33(4):556-561
We have proposed a new λ/4-phase-shifted double phase-shift-controlled distributed feedback wavelength tunable optical filter structure. Theoretical analysis based on the transfer matrix method reveals that this filter can achieved a wavelength tuning range of 28.3 and 34.3 Å for the grating coupling coefficients of 6 and 10 mm, respectively. The filter has almost constant peak transmissivity (gain) of more than 30 dB within its tuning range, and its side-mode suppression ratio (SMSR) ranges from 15 to 34.7 dB 相似文献
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Matsumoto S. Hirabayashi K. Sakata S. Hayashi T. 《Photonics Technology Letters, IEEE》1999,11(4):442-444
An electrically tunable optical filter has been developed that uses a polymer containing fine droplets of nematic liquid crystal as the active cavity in a Fabry-Perot interferometer (FPI). This FPI filter, whose finesse was 62, had a free spectral range of 37 nm in the 1.55-μm range with a full-width at half maximum of 0.6 nm and a transmission loss of 2.4 dB. The polarization dependent loss was smaller than 0.17 dB. The transmitted peak wavelength decreased with an electric field. This resulted in a tuning range of 10 nm at 300 V. The switching time was about 370 μs 相似文献
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A 1.5 μm two-section Fabry-Perot wavelength tunable optical filter is studied. As opposed to DFB filters, this wavelength tunable optical filter has the advantage that the wavelength tuning range and the transmission bandwidth can be designed independently. This two-section Fabry-Perot filter also controls the transmissivity (gain) and the transmission wavelength independently by current injection and the constant-gain and constant-bandwidth wavelength tuning is achieved. The wavelength tuning range is as wide as 188 GHz (15 Å), the constant-gain is as high as 23 dB and the constant-bandwidth is as narrow as 5 GHz during wavelength tuning. A 25-channel wavelength selection with less than -10 dB crosstalk is expected with this filter 相似文献
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A 1.5-μm phase-controlled distributed feedback wavelength-tunable optical filter is studied. This is the first optical filter which controls the transmissivity (gain) and the transmission wavelength independently. Wavelength tuning range as wide as 43 GHz (3.4 Å) with high constant gain of 27 dB has been achieved. A five-channel wavelength selection with less than -10 dB crosstalk is expected with this filter. This device also operates as a wavelength tunable laser, and the wavelength tuning range as a laser is larger than as a filter. The reason is studied, and it is shown that suppression of the submodes is important to expand the wavelength tuning range 相似文献
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介绍了一种利用机械应力在普通单模光纤(SMF)中产生相移长周期光纤光栅(LPFGs)的简单方法。通过光弹效应,用有凹槽的平板制作LPFGs;用螺丝控制2个凹槽平板之间的距离,可以得到不同的相移值,实现了相移值的连续可调。光栅的传输光谱可以通过所加外力实现调谐,谐振峰强度的可调谐范围达到了16dB。该方法对于光栅光谱的调谐有很大的灵活性,可应用于掺Er光纤放大器(EDFA)的增益平坦。 相似文献
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A novel tunable microwave photonic FIR filter incorporating a wavelength spacing tunable multiwavelength filter based on a programmable arrayed micro-mirror device (AMMD) is demonstrated. Owing to the unique characteristic of the AMMD, that an arbitrary optical filter shape can be produced by defining a desired spatial pattern on an array of /spl sim/800 000 micro-mirrors, a wavelength spacing tunable multiwavelength optical filtering pattern is readily obtainable. By controlling the optical filter wavelength spacing, flexible resonance RF frequency tuning is achieved over a range of 2.3 GHz. 相似文献
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A 1.5-μm phase-shift-controlled distributed feedback wavelength tunable optical filter is studied. This wavelength tunable optical filter controls the transmissivity (gain) and the transmission wavelength independently by current injection. During wavelength tuning, the submode suppression ratio is large and a wavelength tuning range as wide as 120 GHz (9.5 Å) with 24.5-dB constant gain is achieved. An 18-channel wavelength selection with less than -10 dB crosstalk is expected with this filter. The effect of the light input, whose wavelength is in the sidelobe, on the transmission spectrum shape is shown 相似文献
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提出了一个新的基于布里渊散射效应的微波光子滤波器。该滤波器可通过调谐系统中光滤波器的中心波长,实现高解析度带通滤波器与陷波滤波器之间的灵活切换,并且通过调谐产生受激布里渊散射的泵浦光的波长可实现滤波器通带或阻带的中心频率在很大频率范围内连续调谐。该滤波器为全光结构,因此具有非常大的调谐范围(调谐上限仅受限于试验中使用的矢量网络分析仪的显示频率上限)。系统中采用相位调制器,因此没有偏置电压漂移问题。实验结果展示了一个带通与陷波滤可灵活切换的高解析度微波光子滤波器,并且通带和阻带的中心频率在9~26.5 GHz范围内连续可调谐,其中带通滤波器的通带具有极窄3 dB带宽,约28 MHz(由光纤本身布里渊增益区线宽所决定)。 相似文献