Ciattoni Alessandro, Cincotti Gabriella, Palma Claudio
Dipartimento di Fisica, Università Roma Tre, and Istituto Nazionale di Fisica della Materia Unità di Roma, Rome, Italy.
J Opt Soc Am A Opt Image Sci Vis. 2002 Jul;19(7):1422-31. doi: 10.1364/josaa.19.001422.
Angular spectra of reflected and transmitted fields, induced by an arbitrary electromagnetic beam passing through the planar interface between a homogeneous medium and a uniaxially anisotropic medium, are derived and related to the incident medium. By using these formulas, we obtain the expressions for paraxial and slightly nonparaxial fields. The reflected paraxial field is related to the incident one by means of Fresnel relations; the transmitted paraxial field is the superposition of an ordinary and an extraordinary beam, multiplied by the Fresnel coefficient. We find that the nonparaxial corrections, owing to the medium discontinuity, are larger than their free-propagation counterparts and that they are very simply related to the paraxial solutions of the incident beam. The case of two homogeneous media with different refractive indices is also discussed. The general expressions obtained are applied to the case of a nonparaxial Gaussian beam.
由任意电磁束穿过均匀介质和单轴各向异性介质之间的平面界面所诱导的反射场和透射场的角谱被推导出来,并与入射介质相关联。通过使用这些公式,我们得到了傍轴和略微非傍轴场的表达式。反射傍轴场通过菲涅耳关系与入射场相关;透射傍轴场是寻常光束和非常光束的叠加,并乘以菲涅耳系数。我们发现,由于介质不连续性引起的非傍轴修正比自由传播情况下的修正更大,并且它们与入射光束的傍轴解非常简单地相关。还讨论了具有不同折射率的两种均匀介质的情况。所得到的一般表达式被应用于非傍轴高斯光束的情况。