Fabrication of Optical Fourier Surface by Multiple‐Frequency Vibration Cutting for Structural True Coloration

Abstract: Optical Fourier surface is a unique patterned optical surface containing the precise sum of sinusoidal waves, each with a well‐defined spatial frequency and amplitude. It can manipulate the desired diffracted light field through its Fourier transform, which brings a straightforward mathematical method for designing complex diffractive optics. However, the fabrication techniques typically have the drawbacks of low efficiency, limiting the large‐scale industrial application of optical Fourier surfaces. This stud… Show more

“…While these methods are more effective than lithography, they are not scalable because they still need larger-area mold or masks, longer processing time, or more expense to practically fabricate optical devices 29 – 31 . Likewise, DOEs can be practically fabricated by adopting new lithographic materials 32 or a mechanical patterning process 33 , but they still have symmetric grating shapes that are limited to conventional functions of DOEs. For these reasons, methods that can be used to create asymmetric nanograting patterns with tailored periods, shapes, and slopes at a high speed over a large area, without using large-area molds or masks and complex apparatuses, are needed urgently.…”

Azimuthal rotation-controlled nanoinscribing for continuous patterning of period- and shape-tunable asymmetric nanogratings

“…While these methods are more effective than lithography, they are not scalable because they still need larger-area mold or masks, longer processing time, or more expense to practically fabricate optical devices 29 – 31 . Likewise, DOEs can be practically fabricated by adopting new lithographic materials 32 or a mechanical patterning process 33 , but they still have symmetric grating shapes that are limited to conventional functions of DOEs. For these reasons, methods that can be used to create asymmetric nanograting patterns with tailored periods, shapes, and slopes at a high speed over a large area, without using large-area molds or masks and complex apparatuses, are needed urgently.…”

Azimuthal rotation-controlled nanoinscribing for continuous patterning of period- and shape-tunable asymmetric nanogratings

Effect of tool vibration trajectory on vibration-assisted diamond-cutting structural color