Achromatic Imaging Systems with Flat Lenses Enabled by Deep Learning

Abstract: Motivated by their great potential to reduce the size, cost, and weight, flat lenses, a category that includes diffractive lenses and metalenses, are rapidly emerging as key components with the potential to replace the traditional refractive optical elements in modern optical systems. Yet, the inherently strong chromatic aberration of these flat lenses is significantly impairing their performance in systems based on polychromatic illumination or passive ambient light illumination, stalling their widespread imp… Show more

“…Inspired by conventional anti-reflective film, Ryu et al and Basilio-Ortiz et al developed efficient multi-layer dielectric metalenses: one based SOI material for narrow waveband [18] and another using repeatedly stacked GaN/α-Si nanopillars based on Si O 2 substrate in the visible [15]. Numerous studies, employing techniques like dispersion engineering [20][21][22][23][24][25], spatial multiplexing [26][27][28][29], and computational optimization [30][31][32][33], aim to eliminate chromatic aberration in single metalenses. For example, Ou et al demonstrated a broadband achromatic all-Si metalens in the mid-wave infrared, with an average focal efficiency of about 35% [22].…”

Design of mid-wave infrared achromatic double-layer metalens with enhanced efficiency

“…Inspired by conventional anti-reflective film, Ryu et al and Basilio-Ortiz et al developed efficient multi-layer dielectric metalenses: one based SOI material for narrow waveband [18] and another using repeatedly stacked GaN/α-Si nanopillars based on Si O 2 substrate in the visible [15]. Numerous studies, employing techniques like dispersion engineering [20][21][22][23][24][25], spatial multiplexing [26][27][28][29], and computational optimization [30][31][32][33], aim to eliminate chromatic aberration in single metalenses. For example, Ou et al demonstrated a broadband achromatic all-Si metalens in the mid-wave infrared, with an average focal efficiency of about 35% [22].…”

Design of mid-wave infrared achromatic double-layer metalens with enhanced efficiency

End-to-end optimization of single-shot monocular metasurface camera for RGBD imaging