深圳信息职业技术学院学报
深圳信息職業技術學院學報
심수신식직업기술학원학보
JOURNAL OF SHENZHEN INSTITUTE OF INFORMATION TECHNOLOGY
2012年
3期
85-89
,共5页
全光波长转换%准相位匹配%倍频%和频%差频
全光波長轉換%準相位匹配%倍頻%和頻%差頻
전광파장전환%준상위필배%배빈%화빈%차빈
all optical wavelength conversion%quasi phase matched%second harmonic generation%sum frequencygeneration%difference frequency generation
波长变换技术是组成全光分组交换网中的重要技术之一,而当前比较成熟的基于半导体光放大器的波长转换技术在传输速率、信号格式、波长转换通道数和灵活性上还存在缺陷,不利于今后高速大容量光网络的发展。本文提出了基于周期极化掺氧化镁铌酸锂(PPMgLN)晶体的非线性波长转换方案,该方案采用I型准相位匹配(QPM)技术实现宽带倍频(SHG)、和频(SFG)和差频(DFG),再通过级联二阶倍频差频(cSHG/DFG)或级联二阶和频差频(cSFG/DFG)波长转换机制,实现全光通信波长转换。在全光网络中,该方案能够很好地解决波长竞争、传输格式达到完全透明、降低网络阻塞率、提高网络传输速率等问题。
波長變換技術是組成全光分組交換網中的重要技術之一,而噹前比較成熟的基于半導體光放大器的波長轉換技術在傳輸速率、信號格式、波長轉換通道數和靈活性上還存在缺陷,不利于今後高速大容量光網絡的髮展。本文提齣瞭基于週期極化摻氧化鎂鈮痠鋰(PPMgLN)晶體的非線性波長轉換方案,該方案採用I型準相位匹配(QPM)技術實現寬帶倍頻(SHG)、和頻(SFG)和差頻(DFG),再通過級聯二階倍頻差頻(cSHG/DFG)或級聯二階和頻差頻(cSFG/DFG)波長轉換機製,實現全光通信波長轉換。在全光網絡中,該方案能夠很好地解決波長競爭、傳輸格式達到完全透明、降低網絡阻塞率、提高網絡傳輸速率等問題。
파장변환기술시조성전광분조교환망중적중요기술지일,이당전비교성숙적기우반도체광방대기적파장전환기술재전수속솔、신호격식、파장전환통도수화령활성상환존재결함,불리우금후고속대용량광망락적발전。본문제출료기우주기겁화참양화미니산리(PPMgLN)정체적비선성파장전환방안,해방안채용I형준상위필배(QPM)기술실현관대배빈(SHG)、화빈(SFG)화차빈(DFG),재통과급련이계배빈차빈(cSHG/DFG)혹급련이계화빈차빈(cSFG/DFG)파장전환궤제,실현전광통신파장전환。재전광망락중,해방안능구흔호지해결파장경쟁、전수격식체도완전투명、강저망락조새솔、제고망락전수속솔등문제。
The technology of wavelength conversion is the one of most important technology in all optical wavelength division multiplexing communication networks. Currently, the matured wavelength conversion based on semiconductor optical amplifier has some defects, such as transmission rate is not fast, not strictly transparent to signal format, wavelength conversion channels is not enough and the flexibility of optical networks is not good. Those defects limit the development of high-speed and large-capacity optical networks in future. A new method of nonlinear wavelength conversion based on PPMgLN crystal is given in this paper. This method adopt the technology of type I quasi phase matched(QPM) to realize broadband second harmonic generation(SHG) effect, sum frequency generation(SFG) effect and difference frequency generation(DFG) effect. Afterwards, utilizing the wavelength conversion mechanism of cascaded SHG/DFG and cascaded SFG/DFG to realize all optical wavelength conversion. In optical networks, this method can resolve the problem of wavelength competition, strictly transparent to signal format, the optical networks blocking rate and the optical networks transmission rate.
