红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2015年
1期
215-221
,共7页
许文渊%何韵%李立京%梁生
許文淵%何韻%李立京%樑生
허문연%하운%리립경%량생
全光逻辑门%高非线性光纤%可级联性
全光邏輯門%高非線性光纖%可級聯性
전광라집문%고비선성광섬%가급련성
all-optical logic gate%HLNF%cascade
在未来的通信领域中,全光逻辑门是全光计算机和全光网络的基本单元。目前已经提出了很多实现全光逻辑门的结构和方法,但是全光逻辑的技术瓶颈也出现了,就是怎样能够将单个的全光逻辑门级联起来实现更复杂的逻辑关系。现存的全光逻辑门结构一般不具有很好的可以实现多级连接的级联性,而且现有的对于级联性的分析大都停留在理论层面,而没有与实际情况相结合,所以对于实际应用来说意义很小。提出了一种新型的基于高非线性Sagnac干涉仪的超高速全光NOT门,建立了它的数学模型,采用了与实际情况更加接近的高斯脉冲模拟输入光,并且在仿真结果的基础上分析了系统的级联性,对级联性的分析考虑了光纤损耗和走离效应的影响。得到的基本结论表明,所提出的全光逻辑门的结构能够在实际情况下保持良好的级联性。
在未來的通信領域中,全光邏輯門是全光計算機和全光網絡的基本單元。目前已經提齣瞭很多實現全光邏輯門的結構和方法,但是全光邏輯的技術瓶頸也齣現瞭,就是怎樣能夠將單箇的全光邏輯門級聯起來實現更複雜的邏輯關繫。現存的全光邏輯門結構一般不具有很好的可以實現多級連接的級聯性,而且現有的對于級聯性的分析大都停留在理論層麵,而沒有與實際情況相結閤,所以對于實際應用來說意義很小。提齣瞭一種新型的基于高非線性Sagnac榦涉儀的超高速全光NOT門,建立瞭它的數學模型,採用瞭與實際情況更加接近的高斯脈遲模擬輸入光,併且在倣真結果的基礎上分析瞭繫統的級聯性,對級聯性的分析攷慮瞭光纖損耗和走離效應的影響。得到的基本結論錶明,所提齣的全光邏輯門的結構能夠在實際情況下保持良好的級聯性。
재미래적통신영역중,전광라집문시전광계산궤화전광망락적기본단원。목전이경제출료흔다실현전광라집문적결구화방법,단시전광라집적기술병경야출현료,취시즘양능구장단개적전광라집문급련기래실현경복잡적라집관계。현존적전광라집문결구일반불구유흔호적가이실현다급련접적급련성,이차현유적대우급련성적분석대도정류재이론층면,이몰유여실제정황상결합,소이대우실제응용래설의의흔소。제출료일충신형적기우고비선성Sagnac간섭의적초고속전광NOT문,건립료타적수학모형,채용료여실제정황경가접근적고사맥충모의수입광,병차재방진결과적기출상분석료계통적급련성,대급련성적분석고필료광섬손모화주리효응적영향。득도적기본결론표명,소제출적전광라집문적결구능구재실제정황하보지량호적급련성。
All- optical logic gates are the basic unit of all- optical computer and all- optical network in the field of communication in the future. A variety of structures and methods has been proposed for the implementation of all- optical logic gate, however, the bottleneck of this technique has emerged, which is how to cascade the individual all- optical logic gates to achieve more complex logical relationships. The existing schemes for all- optical logic gate, generally, don’t have excellent cascade to realize multilevel connection. And the existing analysis on the cascade usually stays on the theoretical level without combination with the realistic situation, which have little sense for the practical application. This work has presented a novel ultrafast all- optical NOT gate based on high nonlinear Sagnac interferometer, has built its mathematical model and digital model, has adopted Gauss pulse as input light for simulation, which is more realistic, and has analyzed the system cascade on the basis of simulation results. The analysis of cascade has taken into account the influence of fiber loss and walk- off effect. The basic conclusions in this article show that the proposed scheme of all- optical logic gates can maintain excellent cascade under practical situation with interference factors.
