光通信研究
光通信研究
광통신연구
STUDY ON OPTICAL COMMUNICATIONS
2014年
3期
60-63
,共4页
周飞亚%张敏明%何岩%刘德明
週飛亞%張敏明%何巖%劉德明
주비아%장민명%하암%류덕명
硅基光子学%耦合器%耦合效率
硅基光子學%耦閤器%耦閤效率
규기광자학%우합기%우합효솔
silicon-based photonics%coupler%coupling efficiency
当前以电子作为信息载体的微电子技术遭遇到发展瓶颈。光传输具有带宽大、速率高的特点,将光子载体与电子载体相结合是未来信息传输发展的必然趋势。波导与光纤的高效耦合是实现光电子集成的关键。文章介绍了国内外几种典型耦合器的最新进展,包括楔形耦合器、GRIN(渐变折射率)透镜耦合器和垂直光栅耦合器,并对它们的性能指标、优缺点进行了比较分析,对进一步提高耦合效率的可行性进行了展望。结果表明,垂直光栅耦合器具有耦合效率高、带宽大、工艺成熟、工艺容差大和耦合步骤简单的优势,在光通信与集成光电子学领域有着广阔的应用前景。
噹前以電子作為信息載體的微電子技術遭遇到髮展瓶頸。光傳輸具有帶寬大、速率高的特點,將光子載體與電子載體相結閤是未來信息傳輸髮展的必然趨勢。波導與光纖的高效耦閤是實現光電子集成的關鍵。文章介紹瞭國內外幾種典型耦閤器的最新進展,包括楔形耦閤器、GRIN(漸變摺射率)透鏡耦閤器和垂直光柵耦閤器,併對它們的性能指標、優缺點進行瞭比較分析,對進一步提高耦閤效率的可行性進行瞭展望。結果錶明,垂直光柵耦閤器具有耦閤效率高、帶寬大、工藝成熟、工藝容差大和耦閤步驟簡單的優勢,在光通信與集成光電子學領域有著廣闊的應用前景。
당전이전자작위신식재체적미전자기술조우도발전병경。광전수구유대관대、속솔고적특점,장광자재체여전자재체상결합시미래신식전수발전적필연추세。파도여광섬적고효우합시실현광전자집성적관건。문장개소료국내외궤충전형우합기적최신진전,포괄설형우합기、GRIN(점변절사솔)투경우합기화수직광책우합기,병대타문적성능지표、우결점진행료비교분석,대진일보제고우합효솔적가행성진행료전망。결과표명,수직광책우합기구유우합효솔고、대관대、공예성숙、공예용차대화우합보취간단적우세,재광통신여집성광전자학영역유착엄활적응용전경。
The microelectronic technology,which uses electrons as its information carrier,is currently running into the bottle-neck of development.As optical communication is characteristic of broad bandwidth and high transmission rate,it is an inevita-ble trend for the development of future information transmission to integrate photonic carriers with electronic carriers.The highly-efficient coupling between waveguides and fibers is the key to realizing photoelectronic integration.This paper reviews the latest advances in the development of several typical couplers at home and abroad,including the tapered coupler,Gradient Refractive Index (GRIN)lens coupler and vertical grating coupler.In addition,it compares and analyzes their performance in-dexes,advantages and disadvantages and predicts the feasibility of further improving their coupling efficiencies.The results show that with the advantages of high coupling efficiency,wide bandwidth,mature technology,large process tolerance and simple coupling steps,vertical granting couplers have a broad prospect of applications in the fields of optical communication and integrated optoelectronics.