Design of Reflective Multichannel Filter Based on Characteristics of Photonic Band Gap

Zhiyu, 贺芝宇 He; Hongfei, 焦宏飞 Jiao; Xinbin, 程鑫彬 Cheng; Jinlong, 张锦龙 Zhang; Zhanshan, 王占山 Wang

doi:10.3788/aos201434.0231002

Cited by 3 publications

(2 citation statements)

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“…耦合器被广泛应用于光开关 [8][9] 、光分束器 [10] 、波分复用器 [11] 等。此外，光子晶体由于本身具有的优于传统光学材料的性质，还被广泛应用于滤光片 [12] 、光纤偏振器 [13] 和定向耦合器 [14] 等，并在光通信、集成光路以及光子计算机等领域作用斐然。光子晶体光波导耦合器在某确定频率光波下的耦合长度与耦合器结构参数及材料参数有关，这些参数包括光子晶体维度、晶格类型、构建情况、晶格常数、介质柱形状、介质柱尺寸以及介质柱折射率等。已有研究表明，在一定范围内减小耦合区介质柱半径可以减小耦合长度 [15] 。一般来说，波导间距为一排介质柱比多排介质柱更有利于减小耦合长度 [16] 。另外也可通过减小波导宽度或增大波导外侧介质柱半径来减小耦合长度，但相比而言，波导间的介质柱半径变化对耦合长度的影响最为显著 [17] 。基于此，为了获得更好的耦合特性，一方面，采用新型光子晶体基质材料，如各向异性材料 [18] 和硫系玻璃 [19] [20] 。…”

Section: 引言unclassified

Three Waveguides Directional Coupler Based on Two Dimensional Square Lattice Photonic Crystal

Kang¹,

Ziming²,

Jianjun³

2016

光学学报

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Photonic crystal is an artificial microstructure constructed in optical wavelength scale, whose dielectric constant arrangement is a periodic configuration. Because it possesses photonic bandgap, it can be used to control photons. Photonic crystal waveguide can be formed by introducing line defect. Given 1.55 μm TE polarized light as source and under different waveguide separations, the relationship between coupling length, coupling efficiency and refractive index of dielectric cylinders, radius of dielectric cylinders are calculated and analyzed by finitedifference time-domain method, respectively. These research results will provide a theoretical guidance for the structure design and fabricating of the 1.55 μm coupler.

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Section: 引言unclassified

Three Waveguides Directional Coupler Based on Two Dimensional Square Lattice Photonic Crystal

Kang¹,

Ziming²,

Jianjun³

2016

光学学报

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“…究热点 [13][14] [15] [15] [16][17] 道隔离度均大于 20 dB。此外，研究了单一频率的光波在解波分复用器中的传输特性，并给出了场分布图。该四通道解波分复用器不但调节简单、耦合效率较高，而且结构更加紧凑、器件尺寸更小，为在小尺寸上实现多通道解波分复用提供了新思路。参考文献…”

Section: -unclassified

Investigation of Four-Channel Photonic Crystal Wavelength Division Demultiplexer

Xiaowei¹,

Pinpin²,

Wenkai³

2016

激光与光电子学进展

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The resonance rule and coupled characteristics of two dimensional triangle lattice photonic crystal ring resonator and micro-cavity are studied. A novel efficient four-channel wavelength division demultiplexer is proposed, which is based on the structure composed by a ring resonator and two micro-cavities. The device realizes the wavelength division demultiplexing with wavelengths of 1471, 1511, 1551, 1591 nm, and the size of the device is reduced significantly. The impact of the ring resonator center rods number and radius on the transmission spectrum is investigated using the finite difference time domain method. The results show that the ring resonator has multimode characteristic and it can adjust the resonance wavelength of the ring resonator by changing its center column radius. By using the micro-cavity frequency selective effect, the transmission rate of each channel reaches more than 90% and the channel isolations are over 20 dB. At the same time, it is simple and efficient, which has potential application value in the field of all optical communication integration.

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Tunable filtering properties of the ployphyly photonic crystal with double local states

Zhu¹,

Dong²,

Wang³

et al. 2015

Acta Phys. Sin.

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The mechanism of generating double defect modes in a photonic crystal with double local states is analyzed based on the tight-binding method. The optical transmission characteristic of a one-dimensional photonic crystal is studied using the transfer matrix method. And the relationship between the transmission spectrum and structural parameters of the photonic crystal is obtained. The mesoscopic calender effect is discussed when the photonic crystal is exerted on by a homotaxial stress on the basis of these theories. Therefore, a multichannel filter with a simple structure which can be modulated by the stress in the near infrared band is designed. Numerical simulation results show that the defect modes may produce a red shift with the increase of the dielectric layers' refractive index or thickness. When the uniaxial tensile stress is applied on the ployphyly photonic crystal with double local states, all defect peaks will move to the direction of the long wavelength, and the values of these defect peaks remain unchanged basically. Through numerical fitting, the relationship between these defect peaks' central wavelengths and the size of the strain produced by the homotaxial tensile stress on the photonic crystal is linear. This kind of photonic crystal filter with a simple structure has good tunability and has practical application value in the manufacture of a series of exquisite photonic crystal lasers, wavelength division multiplexers and other precision instruments.

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Design of Reflective Multichannel Filter Based on Characteristics of Photonic Band Gap

Cited by 3 publications

References 0 publications

Three Waveguides Directional Coupler Based on Two Dimensional Square Lattice Photonic Crystal

Three Waveguides Directional Coupler Based on Two Dimensional Square Lattice Photonic Crystal

Investigation of Four-Channel Photonic Crystal Wavelength Division Demultiplexer

Tunable filtering properties of the ployphyly photonic crystal with double local states

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