Zilan Deng, Qing'An Tu, Xiangping Li. Multi-dimensional metasurface and its application in information encryption and anti-counterfeiting[J]. Infrared and Laser Engineering, 2020, 49(9): 20201034
- Infrared and Laser Engineering
- Vol. 49, Issue 9, 20201034 (2020)
![(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]](/richHtml/irla/2020/49/9/20201034/img_1.jpg)
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]
![(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]](/richHtml/irla/2020/49/9/20201034/img_2.jpg)
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]
![(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]](/Images/icon/loading.gif){kind=icon}
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]
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