共查询到20条相似文献,搜索用时 171 毫秒
1.
李浩谷云龙郑洋陈长鸣王希斌衣云骥孙小强王菲张大明 《光学学报》2015,(4):345-351
研制了一种新型全聚合物49信道绝热低偏振相关阵列波导光栅(AWG)芯片。利用直接紫外光写入技术,实现了波导芯片的设计与制备。利用Matlab软件对AWG的传输特性进行了优化模拟,通过对聚合物衬底的热膨胀系数和聚合物波导的热光系数进行调控,得到了器件良好的绝热低偏振相关特性。测得AWG的中心波长为1550.918 nm,波长间隔为0.8 nm,插入损耗的信道变化范围是5.51 d B^10.62 d B,串扰大于20 d B,偏振漂移和温度变化分别是0.08 nm和0.03 nm/K。这种新技术十分适用于高性能多功能集成光路中,具有广阔的应用前景。 相似文献
2.
3.
4.
一种温度不敏感型阵列波导光栅的研究 总被引:3,自引:3,他引:0
研究了的一种新型温度不敏感型阵列波导光栅(AWG)。该新型温度不敏感型阵列波导光栅的波导采用混合材料的波导结构,该混合材料波导通过在石英波导芯层上旋涂聚合物材料的上包层,达到改变波导温度特性的目的,使得阵列波导光栅的温度敏感性降低。通过理论分析和有限差分方法研究了其中两种结构:三层混合材料波导构成的阵列波导光栅和四层混合材料波导构成的阵列波导光栅,计算了该新型温度不敏感型阵列波导光栅的温度特性。结果表明,在一定的设计下,温度变化0~50℃时,这两种温度不敏感型阵列波导光栅的最大波长漂移量小于0.03nm,不到无温度控制时常规阵列波导光栅最大波长漂移量的4%。 相似文献
5.
6.
7.
8.
提出并设计了快速可调谐电光聚合物波导光栅.该波导光栅通过极化聚合物的线性电光效应 可实现谐振波长的纳秒级快速调谐,调谐灵敏度为61pm/V.研究了该波导光栅的反射谱和透 射谱特性与光栅周期,周期数,折射率调制函数及其调制大小的关系.讨论了波导光栅的材料 选择,制备工艺,快速可调谐性和偏振相关性.该波导光栅不仅克服了光纤光栅调谐速度慢和不利于大规模集成的不足,而且具有调谐灵敏度高,制备工艺与半导体工艺兼容和偏振无关 等优点.
关键词:
光通信器件
光波导
电光效应
聚合物
波导光栅
光纤光栅 相似文献
9.
相比于传统的1×N对称型多模干涉(Mult-Mode Interference,MMI)分束器设计,提出了一种新型埋入式弱限制光波导分束器件.它的干涉区及输入输出波导采用倒锥形式,器件尺寸减小,且不均匀性与附加损耗也减小.以1×4的对称型MMI分束器为例,当只对干涉区采用倒锥形结构后,在TE偏振中心波长为1.55 μm时,器件长度减小了500 μm,均匀性增加了0.131 dB,而附加损耗仅增加了0.02 dB,波长响应较传统设计增加了40 nm.在此基础上,又在输入输出臂上也各增加倒锥形结构后,相比于传统设计附加损耗减小了0.02 dB,均匀性增加了0.139 dB,器件长度减小了500 μm.改进后的器件具有优越的容差性.器件采用掺氟型聚合物材料进行优化设计,通过在合理范围内偏离输出波导位置,使输出光强达到最大值. 相似文献
10.
本文对聚合物阵列波导光栅(AWG)波分复用器中波导的弯曲损耗进行了理论分析。为了使AWG器件中单模传输时波导的弯曲损耗尽量地减小,结合计算实例对波导的弯曲半径、弯曲角度和弯曲弧长等几何参量的选择进行了适当的讨论。 相似文献
11.
In wavelength division multiplexing (WDM) systems, an arrayed waveguide grating (AWG) multiplexer is a key component. A polymeric AWG multiplexer has recently attracted much attention due to its low cost processing and a potential of integration with other devices. Fluorinated poly (ether ether ketone)(FPEEK) is excellent material for fabrication of optical waveguides due to its low absorption loss at 1.55-μm wavelength and high thermal stability. A 32-channel AWG multiplexer has been designed based on the grating diffraction theory and fabricated using newly synthesized FPEEK. During the fabrication process of the Polymer/Si AWG device, spin coating, vaporizing, photolithographic patterning and reactive ion etching (RIE) are used. The AWG multiplexer measurement system is based on a tunable semiconductor laser, infrared camera and a Peltier-type heater. The device exhibits a wavelength channel spacing of 0.8nm and a center wavelength of 1548 nm in the room temperature. 相似文献
12.
随着AWG型器件在光通信系统中的大规模应用,对低成本AWG芯片的需求越来越多。在各种降成本方案中,减小AWG芯片的尺寸是最有效的方法之一。本文介绍了一种新型小尺寸低折射率差硅基二氧化硅阵列波导光栅(AWG)的设计。在该AWG中,输入波导/输出波导与平板波导连接的部分制作成两侧为空气槽的高折射率差波导,所以在与输出平板波导连接处的相邻输出波导间距较小,这样可以在设计上缩短平板波导的长度、减少阵列波导的数量,实现较小的AWG芯片尺寸。该AWG的其它部分,如输入/输出波导与光纤耦合的部分、阵列波导光栅等均采用常规的低折射率波导工艺,所以就同时具有与常规的低折射率波导AWG相同的优点:如低耦合损耗、较好的串扰以及光学特性等。根据这个原理,设计了一种40通道100 GHz频率间隔的低折射率差硅基二氧化硅AWG,其芯片尺寸只有23.88 mm?10.5 mm,是传统相同材料制作的AWG尺寸的1/6。 相似文献
13.
Nguyen VD Akca BI Wörhoff K de Ridder RM Pollnau M van Leeuwen TG Kalkman J 《Optics letters》2011,36(7):1293-1295
We designed and fabricated an arrayed-waveguide grating (AWG) in silicon oxynitride as a spectrometer for spectral domain optical coherence tomography (SD-OCT). The AWG has a footprint of only 3.0 cm × 2.5 cm, operates at a center wavelength of 1300 nm, and has 78 nm free spectral range. OCT measurements are performed that demonstrate imaging up to a maximum depth of 1 mm with an axial resolution of 19 μm, both in agreement with the AWG design parameters. Using the AWG spectrometer combined with a fiber-based SD-OCT system, we demonstrate cross-sectional OCT imaging of a multilayered scattering phantom. 相似文献
14.
In this Letter, a 16 channel 200 GHz wavelength tunable arrayed waveguide grating(AWG) is designed and fabricated based on the silicon on insulator platform. Considering that the performance of the AWG, such as central wavelength and crosstalk, is sensitive to the dimension variation of waveguides, the error analysis of the AWG with width fluctuations is worked out using the transfer function method. A heater is designed to realize the wavelength tunability of the AWG based on the thermo-optic effect of silicon. The measured results show that the insertion loss of the AWG is about 6 d B, and the crosstalk is 7.5 d B. The wavelength tunability of 1.1 nm is achieved at 276 m W power consumption, and more wavelength shifts will gain at larger power consumption. 相似文献
15.
Fei Wang Chunsheng Ma Wei Sun Aize Li Yu Zhao Zhenhua Jiang Daming Zhang 《Optics & Laser Technology》2005,37(7):527-531
In this paper, certain important parameters are optimized for a polymer/Si arrayed waveguide grating (AWG) multiplexer by using grating theory. A 32-channel multiplexer is designed and fabricated using newly synthesized fluorinated poly (ether ether ketone) with a high thermal stability. The measured wavelength channel spacing is 0.796 nm, and center wavelength and 3-dB bandwidth are 1548 nm and 0.3 nm, respectively. 相似文献
16.
Bianca Buchold Christoph Glingener Dirk Culemann Edgar Voges 《Fiber and Integrated Optics》1998,17(4):279-298
Wavelength multiplexers based on the arrayed-waveguide grating (AWG) principle are fabricated with ion-exchanged waveguides in glass for 1550 nm. The insertion loss is 6 and 4 dB with a cross talk of 15 and 20 dB for 8-channel 50 GHz and 4-channel 100 GHz devices, respectively. The AWGs are almost polarization insensitive because the refractive index profile of the waveguides is nearly concentric and the waveguides are diffused into stress-free glass substrates. The transverse electric transverse magnetic (TETM) shift of the wavelength response is only 0.02 nm (2.5GHz) for an 8-channel 50 GHz AWG. The temperature sensitivity is 1.4 GHz C. 相似文献
17.
18.
Zheng-Kun Qin Chun-Sheng Ma De-Lu Li Da-Ming Zhang Shi-Yong Liu 《Optics & Laser Technology》2008,40(2):235-242
Based on the transmission theory, parameter optimization is performed, and effects of fabrication errors on transmission characteristics are analyzed for a 33×33 polymer arrayed waveguide grating (AWG) multiplexer around the central wavelength of 1550.918 nm with the wavelength spacing of 0.8 nm. Simulated results show that fabrication errors result in the shift of the transmission spectrum, and lead to the increase of the crosstalk compared with the device theoretically designed. Furthermore, accumulation and compensation of fabrication errors are investigated. In order to realize the normal demultiplexing of the fabricated AWG device, the allowed fabrication errors are discussed. 相似文献
19.
A triplexer is fabricated based on SOI arrayed waveguide gratings (AWGs). Three wavelengths of the triplexer operate at different diffraction orders of an arrayed waveguide grating. The signals of 1490nm and 1550nm, which are input from central input waveguide of an AWG, are demultiplexed and the signal of 131Onto, which is input from central output waveguide of an AWG, is uploaded. The tested results show that the downloaded and uploaded signals have fiat-top response. The insertion loss is 9 dB on chip, the nonadjacent crosstalk is less than -30 dB for 1490nm and 1301 nm, and is less than -25 dB for 1550nm, the 3dB bandwidth equates that of the input light source. 相似文献