TY - JOUR
T1 - Dielectric metasurfaces
T2 - From wavefront shaping to quantum platforms
AU - Li, Chuanlin
AU - Yu, Peng
AU - Huang, Yongjun
AU - Zhou, Qiang
AU - Wu, Jiang
AU - Li, Zhe
AU - Tong, Xin
AU - Wen, Qiye
AU - Kuo, Hao-Chung
AU - Wang, Zhiming M.
PY - 2020/5
Y1 - 2020/5
N2 - Metasurfaces are nanopatterned structures of sub-wavelength thickness. Their effective refractive index and spectral characteristic can be tailored by material composition, intrinsic and extrinsic resonances, structure size, and ambient conditions. Consequently, they allow for phase, amplitude, polarisation, and spatial control of an optical field beyond what natural materials can offer. Dielectric metasurfaces with lower loss have opened a wide range of new applications such as enhanced imaging, structural colour, holography, and planar sensors. In particular, beam steering and control measures such as nonlinear optics, ultrafast optics, and quantum optics are of increasing importance for quantum communication, computation, and information processing. In this review, the recent progress on dielectric metasurfaces is summarised, including advanced fabrication technologies and novel applications from advanced wavefront shaping to quantum platforms. In addition, a perspective for the future development of the field is presented.
AB - Metasurfaces are nanopatterned structures of sub-wavelength thickness. Their effective refractive index and spectral characteristic can be tailored by material composition, intrinsic and extrinsic resonances, structure size, and ambient conditions. Consequently, they allow for phase, amplitude, polarisation, and spatial control of an optical field beyond what natural materials can offer. Dielectric metasurfaces with lower loss have opened a wide range of new applications such as enhanced imaging, structural colour, holography, and planar sensors. In particular, beam steering and control measures such as nonlinear optics, ultrafast optics, and quantum optics are of increasing importance for quantum communication, computation, and information processing. In this review, the recent progress on dielectric metasurfaces is summarised, including advanced fabrication technologies and novel applications from advanced wavefront shaping to quantum platforms. In addition, a perspective for the future development of the field is presented.
KW - Dielectric metasurfaces
KW - Light-matter interaction
KW - Fabrication methods
KW - Wavefront shaping
KW - Quantum optics
KW - ORBITAL ANGULAR-MOMENTUM
KW - BAND ACHROMATIC METALENS
KW - 3RD HARMONIC-GENERATION
KW - BROAD-BAND
KW - FANO RESONANCES
KW - 2ND-HARMONIC GENERATION
KW - HUYGENS METASURFACES
KW - TUNABLE METASURFACE
KW - OPTICAL VORTICES
KW - BOUND-STATES
U2 - 10.1016/j.progsurf.2020.100584
DO - 10.1016/j.progsurf.2020.100584
M3 - Review article
SN - 0079-6816
VL - 95
JO - Progress in Surface Science
JF - Progress in Surface Science
IS - 2
M1 - 100584
ER -