Photonic jet generated by symmetric four Airy beams illumination

Abstract

Photonic jet (PJ) is generated by illuminating a dielectric scatterer with symmetric four Airy beams (SFAiB). The PJ properties have been systematically studied as a function of characteristic parameters of both the SFAiB and the scatterer, including the geometric parameter D that controls lateral position of each Airy beam component, decay factor, focal point position of the SFAiB, as well as the refractive index of the scatterer. The results show that the PJ performance can be optimized by all of these parameters as a result that the diffraction and self-focusing effects of the SFAiB itself, and the scatterer’s focusing function simultaneously play roles in the PJ generation in case of SFAiB illumination. The illumination by SFAiB has advantages over that by plane wave or Gaussian beam in flexibility of tailoring the PJ performance and in possibility of generating a photonic hook with asymmetric illumination caused by transverse offset of focal point of incident SFAiB. In addition, the SFAiB illumination makes it possible to generate a PJ outside a scatterer in case that the scatterer has a higher refractive index of ns > 2.0, increasing the flexibility in both material choice and structural design of scatterer for generation of a PJ for some potential applications.