天津大学学报
天津大學學報
천진대학학보
JOURNAL OF TIANJIN UNIVERSITY SCIENCE AND TECHNOLOGY
2014年
3期
262-266
,共5页
光栅%衍射效率%严格耦合波理论
光柵%衍射效率%嚴格耦閤波理論
광책%연사효솔%엄격우합파이론
grating%diffraction efficiency%rigorous coupled wave analysis
针对波导全息平视器中一种新型的耦合光栅结构,基于严格耦合波理论数值分析了其衍射特性,同时对光栅的工艺容差进行了分析,计算了膜厚、槽深、周期与入射波长对耦合效率的影响。该光栅以波导板中内嵌的闪耀光栅锯齿面作基底,镀高折射率的膜层后,覆盖锯齿状的金属膜层。计算结果表明:对于波长532,nm 的 TE 偏振光,空气中0°入射的一级衍射效率可大于90%;当空气中入射光的纵向角在[-8°,12°]、横向角在[-15°,15°]内变化时,一级衍射效率可大于82%且保持平稳。该光栅可在波导全息平视器中,对大视场成像光束进行均匀、高效的耦合。
針對波導全息平視器中一種新型的耦閤光柵結構,基于嚴格耦閤波理論數值分析瞭其衍射特性,同時對光柵的工藝容差進行瞭分析,計算瞭膜厚、槽深、週期與入射波長對耦閤效率的影響。該光柵以波導闆中內嵌的閃耀光柵鋸齒麵作基底,鍍高摺射率的膜層後,覆蓋鋸齒狀的金屬膜層。計算結果錶明:對于波長532,nm 的 TE 偏振光,空氣中0°入射的一級衍射效率可大于90%;噹空氣中入射光的縱嚮角在[-8°,12°]、橫嚮角在[-15°,15°]內變化時,一級衍射效率可大于82%且保持平穩。該光柵可在波導全息平視器中,對大視場成像光束進行均勻、高效的耦閤。
침대파도전식평시기중일충신형적우합광책결구,기우엄격우합파이론수치분석료기연사특성,동시대광책적공예용차진행료분석,계산료막후、조심、주기여입사파장대우합효솔적영향。해광책이파도판중내감적섬요광책거치면작기저,도고절사솔적막층후,복개거치상적금속막층。계산결과표명:대우파장532,nm 적 TE 편진광,공기중0°입사적일급연사효솔가대우90%;당공기중입사광적종향각재[-8°,12°]、횡향각재[-15°,15°]내변화시,일급연사효솔가대우82%차보지평은。해광책가재파도전식평시기중,대대시장성상광속진행균균、고효적우합。
A novel coupling grating could play an important part in the waveguide holographic helmet mounted dis-play,but to our knowledge few documents reveal its diffraction features in detail. Based on rigorous coupled wave analysis,the diffraction features are numerically analyzed. Tolerance analyses are also made of film thickness, groove depth,cycles and incident wavelength. The grating base is like the blazing grating etched in the waveguide. On the tilt surface,the film with high refractive index is first coated and then the metal is coated on the film in suc-cession. The results show that for the TE-polarized incident light of 532,nm,the 1st order diffraction efficiency is larger than 90%with perpendicular incidence. It could remain stable with the incident angle from the air changing be-tween [-8°,12°] vertically and [-15°,15°] horizontally. The 1st diffraction efficiency could be larger than 82%and keep stable. The proposed coupling grating could couple the image rays from large view fields into the display device with high efficiency and uniformity.