Litcius/Paper detail

Reconstructing subwavelength resolution terahertz holographic images

Ruoxing Wang, Guanhua Ren, Zhi Ren, Jianlong Liu, Songtao Li, Xianzhong Chen, Li Li

2022Optics Express24 citationsDOIOpen Access PDF

Abstract

Computer-generated holography typically generates terahertz (THz) holographic images with a pixel size larger than wavelength. We propose a multi-foci metalens model to reconstruct THz holographic images with subwavelength resolution. The designed devices are realized based on dielectric metasurfaces consisting of silicon micropillars with spatially variant orientations. By exploiting quasi-continuous profile of focal points as the pixels of a holographic image, a metalens can reconstruct a high-resolution target image on its focal plane. The effects of size and pitch of each sub-diffraction focal point on imaging quality and pixel resolution are discussed. The intensity distribution at each focal point indicates that the reconstructed images have subwavelength resolution. In comparison with conventional hologram designs, this design method can be used to reconstruct THz holographic images with subwavelength resolution, which have potential applications in THz communication, information security and anti-counterfeiting.

Topics & Concepts

HolographyOpticsTerahertz radiationPixelPhysicsImage resolutionImage qualityResolution (logic)Focal pointPoint spread functionIterative reconstructionDigital holographyGhost imagingHolographic displayDigital holographic microscopyPoint (geometry)Cardinal pointImage sensorIntensity (physics)Image processingQuality (philosophy)Spatial light modulatorFocal lengthHolographic interferometryLight intensityDot pitchDielectricSpatial frequencyMaterials scienceMetamaterials and Metasurfaces ApplicationsTerahertz technology and applicationsPlasmonic and Surface Plasmon Research