Rediscovering the waveguide beam splitter/combiner

Abstract: By establishing the relation of Talbot self-imaging effects in free space and in waveguide, we have rediscovered the self-imaging diffraction effect in waveguide with the view of Talbot effect in free-space. We have found that the diffraction theory of Talbot effect in free space do give us a set of simplified equations, that can't be obtained with the theory of multimode interference (MMI), beam propagation method, etc.. We show that simple equations for explanation of Talbot self-imaging effect in free space… Show more

“…4 There are simple principles 5 governing the Talbot effect for amplitude gratings with an arbitrary opening ratio. Since the self-imaging effect in a waveguide is essentially the same as the self-imaging effect in free space, so the simple principles for free space 6 can also be applied to explain the results in a waveguide, which are usually obtained by the multimode interference method, the beam propagation method, etc. The Talbot effect is well explained by the scalar Fresnel integral method, 5 which does not take into account the polarization effect.…”

Polarization-dependent Talbot effect

“…4 There are simple principles 5 governing the Talbot effect for amplitude gratings with an arbitrary opening ratio. Since the self-imaging effect in a waveguide is essentially the same as the self-imaging effect in free space, so the simple principles for free space 6 can also be applied to explain the results in a waveguide, which are usually obtained by the multimode interference method, the beam propagation method, etc. The Talbot effect is well explained by the scalar Fresnel integral method, 5 which does not take into account the polarization effect.…”

Polarization-dependent Talbot effect