Abstract
Metalenses have shown a number of promising functionalities that are comparable with conventional refractive lenses. However, current metalenses are still far from commercialization due to the formidable fabrication costs. Here, we demonstrate a low-cost dielectric metalens that works in the visible spectrum. The material of the metalens consists of a matrix-inclusion composite in which a hierarchy satisfies two requirements for the single-step fabrication; a high refractive index and a pattern-transfer capability. We use a UV-curable resin as a matrix to enable direct pattern replication by the composite, and titanium dioxide nanoparticles as inclusions to increase the refractive index of the composite. Therefore, such a dielectric metalens can be fabricated with a single step of UV nanoimprint lithography. An experimental demonstration of the nanoparticle composite-based metalens validates the feasibility of our approach and capability for future applications. Our method allows rapid replication of metalenses repeatedly and thereby provides an advance toward the use of metalenses on a commercial scale.
Highlights
Metalenses have shown a number of promising functionalities that are comparable with conventional refractive lenses
The UV-curable resin is used as a matrix material to enable the replication of the mold pattern, and TiO2 NPs are embedded in the inclusions to increase the effective n of the nanoparticle composite (NPC)
The experimental demonstration verifies the feasibility of the plum pudding metalens (PPML) as a practical low-cost metalens, and the current PPML can be further improved for future applications
Summary
Metalenses have shown a number of promising functionalities that are comparable with conventional refractive lenses. The material of the metalens consists of a matrix-inclusion composite in which a hierarchy satisfies two requirements for the single-step fabrication; a high refractive index and a pattern-transfer capability. We use a UV-curable resin as a matrix to enable direct pattern replication by the composite, and titanium dioxide nanoparticles as inclusions to increase the refractive index of the composite. Such a dielectric metalens can be fabricated with a single step of UV nanoimprint lithography.
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