Author Affiliations
Guangdong Provincial Key Laboratory of Optical Fiber Sensing and Communications, Institute of Photonics Technology, Jinan University, Guangzhou 510632, Chinashow less
Fig. 1. (a) Resonance phase based on the size of H-type antenna structure
[29]; (b) Geometric phases based on the rotation of superstructure atoms within a unit period
[30]; (c) Transmission phase based on the size of the columnar nanostructure
[31]; (d) Detour phase based on the relative displacement of the superstructure atoms in the unit period
[32] Fig. 2. (a) Amplitude-only holography based on subwavelength nanopore diffraction
[36]; (b) High efficient phase-only holography based on geometric phase
[13]; (c) Hidden metasurface of the polarized image in the laser beam based on Marius's law
[37] Fig. 3. (a) Complex amplitude holographic display based on X-type atom
[50]; (b) A color-coded image combining polarization and wavelength
[55]; (c) Color filter combining polarization and wavelength
[56]; (d) Colorful holograms combining phase and wavelength
[59]; (e) Vector holography based on metal orthogonal diatomics and display of arbitrary polarization states
[70]; (f) Vector holographic encryption combining phase and polarization
[71] Fig. 4. (a) Color nano-printing and full-color holographic images that simultaneously control amplitude, phase, and wavelength
[74];(b)Color coded letters that simultaneously control wavelength, phase, and polarization
[76];(c)Holographic optical real-time encryption device for microprints and spiral multiplexing that imultaneously control amplitude, phase and polarization
[78];(d)Full-color complex amplitude hologram that simultaneously controls amplitude, phase, polarization and multiplexes wavelength
[82] Fig. 5. (a) Dual holographic display based on the switch between crystalline state and amorphous state under thermal stimulation of GST phase change material
[88]; (b) Dynamic holographic and optical information encryption based on hydrogenation/dehydrogenation chemical reactions
[93]; (c) Multiplex holographic display based on polydimethylsiloxane elastic substrate
[95] Fig. 6. (a) Optical information encryption based on the second harmonic nonlinear metasurface
[106]; (b) Anti-surveillance metasurface based on thermal disturbance
[107]; (c) Electromagnetic reprogrammable coding metasurface holograms
[108]