激光技术
激光技術
격광기술
LASER TECHNOLOGY
2014年
1期
87-90
,共4页
衍射%光栅%角谱%频移%插值
衍射%光柵%角譜%頻移%插值
연사%광책%각보%빈이%삽치
diffraction%gratings%angular spectrum%shift in frequency domain%interpolation
在衍射分布的离散计算中,当衍射距离增大时,满足抽样定理的抽样点数会随之增加,为了解决补零算法带来的计算量大、计算机内存溢出等问题,提出了一种频移插值法,在不改变抽样点数的情况下,获得更为丰富的频谱成分,计算每次插值后的光场分布,然后进行线性叠加,从而得到完整的衍射分布。结果表明,该算法可以避开衍射距离增大必须增加抽样点数这一离散计算限制条件,和传统补零算法相比,计算量极大地减小,并降低了对计算机内存的要求。
在衍射分佈的離散計算中,噹衍射距離增大時,滿足抽樣定理的抽樣點數會隨之增加,為瞭解決補零算法帶來的計算量大、計算機內存溢齣等問題,提齣瞭一種頻移插值法,在不改變抽樣點數的情況下,穫得更為豐富的頻譜成分,計算每次插值後的光場分佈,然後進行線性疊加,從而得到完整的衍射分佈。結果錶明,該算法可以避開衍射距離增大必鬚增加抽樣點數這一離散計算限製條件,和傳統補零算法相比,計算量極大地減小,併降低瞭對計算機內存的要求。
재연사분포적리산계산중,당연사거리증대시,만족추양정리적추양점수회수지증가,위료해결보령산법대래적계산량대、계산궤내존일출등문제,제출료일충빈이삽치법,재불개변추양점수적정황하,획득경위봉부적빈보성분,계산매차삽치후적광장분포,연후진행선성첩가,종이득도완정적연사분포。결과표명,해산법가이피개연사거리증대필수증가추양점수저일리산계산한제조건,화전통보령산법상비,계산량겁대지감소,병강저료대계산궤내존적요구。
In the discrete numerical calculation of diffraction distribution,the total number of sampling points following sampling theorem increases with the augment of propagating distance.Although the traditional zero-padding method resolves this problem,the calculation load increases inevitably and PC’s memory can not afford.A novel frequency shift interpolation,i.e.,utilizing frequency spectrum calculation after shift in Fourier domain,was proposed.In the method,more sufficient spectrum components can be got without the increase of sampling number.A complete diffraction distribution is accomplished by splicing the light field obtained by spectrum of each shifted interpolation.The results show that the proposed method successfully evades the great sampling number caused by larger diffracting distance.Comparing with traditional zero-padding method,calculation load is decreased notably and the requirement to memory in numerical calculation is depressed.