TY - JOUR
T1 - Single-layered meta-reflectarray for polarization retention and spin-encrypted phase-encoding
AU - KHALIQ, HAFIZ SAAD
AU - AKRAM, MUHAMMAD RIZWAN
AU - RIAZ, KASHIF
AU - ANSARI, MUHAMMAD AFNAN
AU - AKBAR, JEHAN
AU - ZHANG, JIN
AU - ZHU, WEIREN
AU - ZHANG, DAJUN
AU - WANG, XIONG
AU - ZUBAIR, MUHAMMAD
AU - MEHMOOD, MUHAMMAD QASIM
N1 - Generated from Scopus record by KAUST IRTS on 2023-09-20
PY - 2021/2/1
Y1 - 2021/2/1
N2 - Broadband communication with high data rates is a dire need for state-of-the-art wireless technologies. For achieving efficient wireless communication (particularly in an indoor environment), the electromagnetic (EM) waves should maintain their state of polarization despite encountering multiple reflections. Metasurfaces provide a unique platform to design subwavelength-featured meta-reflectarrays which enable the desired retention of the polarization state of an EM wave upon reflection. We present a single-layered broadband meta-reflectarray, simultaneously breaking n-fold (n > 2) rotational and mirror symmetry, which exhibits an unprecedented control over the phase, amplitude, and polarization of a reflected EM wave. This unique control enables the retention of polarization state and recording of spin-encrypted information for the reflected EM waves. Such novel multifunctional meta-reflectarray can be crucial to building an indoor setup for high data rate wireless communications. Meanwhile, the meta-array's ability to encode phase information provides an extra degree of freedom to structure and control (via incident spin) the reflected EM beam in the desired way. For the proof of concept, we have experimentally demonstrated a spin-encrypted holographic display which reconstructs the recorded holographic image at an image plane for the left circularly polarized (LCP) illumination and exhibits circular dichroism for the right circularly polarized (RCP) incident waves. The proposed meta-array can find applications in 5G indoor wireless communication, chiral sensing, spin-selective imaging, holography, and encryption.
AB - Broadband communication with high data rates is a dire need for state-of-the-art wireless technologies. For achieving efficient wireless communication (particularly in an indoor environment), the electromagnetic (EM) waves should maintain their state of polarization despite encountering multiple reflections. Metasurfaces provide a unique platform to design subwavelength-featured meta-reflectarrays which enable the desired retention of the polarization state of an EM wave upon reflection. We present a single-layered broadband meta-reflectarray, simultaneously breaking n-fold (n > 2) rotational and mirror symmetry, which exhibits an unprecedented control over the phase, amplitude, and polarization of a reflected EM wave. This unique control enables the retention of polarization state and recording of spin-encrypted information for the reflected EM waves. Such novel multifunctional meta-reflectarray can be crucial to building an indoor setup for high data rate wireless communications. Meanwhile, the meta-array's ability to encode phase information provides an extra degree of freedom to structure and control (via incident spin) the reflected EM beam in the desired way. For the proof of concept, we have experimentally demonstrated a spin-encrypted holographic display which reconstructs the recorded holographic image at an image plane for the left circularly polarized (LCP) illumination and exhibits circular dichroism for the right circularly polarized (RCP) incident waves. The proposed meta-array can find applications in 5G indoor wireless communication, chiral sensing, spin-selective imaging, holography, and encryption.
UR - https://opg.optica.org/abstract.cfm?URI=oe-29-3-3230
UR - http://www.scopus.com/inward/record.url?scp=85099784495&partnerID=8YFLogxK
U2 - 10.1364/OE.415562
DO - 10.1364/OE.415562
M3 - Article
SN - 1094-4087
VL - 29
SP - 3230
EP - 3242
JO - Optics Express
JF - Optics Express
IS - 3
ER -