Research in recent years has greatly advanced the understanding and capabilities of multi-
beam interference (MBI). With this technology it is now possible to generate a wide range of …

Multibeam interference represents an approach for producing one-, two-, and three-
dimensional periodic optical-intensity distributions with submicrometer features and …

We report on a laser system combining one-photon and two-photon polymerization for
precise and fast fabrication of macroscopic three-dimensional structures featuring …

We demonstrate a promising method for fabrication of plastic microlens arrays (MLAs) with a
controllable ellipticity and structure, by using the combination of multiple-exposure two …

Microlens arrays (MLAs) were fabricated based on the mass transport effect of SU-8
photoresist by a multiexposure two-beam interference technique. In particular, a direct single …

This work demonstrates that arbitrary types of spatially modulated second-order
susceptibility (χ^(2) structures such as 1D and 2D, periodic and quasi-periodic structures …

We demonstrate a novel technique to fabricate desired three-dimensional (3D) periodic
structures by holographically assembling multiple one-dimensional (1D) or multiple two …

This work demonstrates a promising method to fabricate periodic nanovein structures, which
can be served as templates for fabricating photonic crystals possessing a large complete …

We study the influence of the absorption of materials used for holographic fabrication of
photonic structures on their uniformity along the film thickness. We demonstrate theoretically …

Multibeam interference lithography (MBIL) represents a versatile, wafer-scale, rapid, and
cost-effective fabrication technique for periodic-based microstructures. However, integrating …