Design and Optimization of Photon Sieves Using Vector Diffractive Theory

Abstract: Photon sieve is a novel nanostructure element with an array of pinholes. After structural optimization of pinholes, it has good focusing ability from short, visible or long-wavelength light. The resolution of the photon sieve depends on the diameter of the outermost pinholes. To improve the resolution, the diameter of the outmost pinholes decreases. At present, the design theory commonly adopted is scalar diffractive theory. But it is well known that scalar diffractive theory is no longer valid for designing o… Show more

“…The photon sieve [26] is a type of diffractive lens composed of numerous circular apertures. Focusing analyses based on non-paraxial approximation [27] and vector diffraction theory [28,29] have been performed. Furthermore, it is known that the photon sieve has a large numerical aperture.…”

Optimal design of photon-sieve holograms for fine-line image generation

“…The photon sieve [26] is a type of diffractive lens composed of numerous circular apertures. Focusing analyses based on non-paraxial approximation [27] and vector diffraction theory [28,29] have been performed. Furthermore, it is known that the photon sieve has a large numerical aperture.…”

Optimal design of photon-sieve holograms for fine-line image generation

An artificial compound eye of photon Sieves

Experimental testing of focusing properties of subwavelength photon sieves using exposure method