2018
DOI: 10.29026/oea.2018.180009
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Tunable and reconfigurable metasurfaces and metadevices

Abstract: Metasurfaces, two-dimensional equivalents of metamaterials, are engineered surfaces consisting of deep subwavelength features that have full control of the electromagnetic waves. Metasurfaces are not only being applied to the current devices throughout the electromagnetic spectrum from microwave to optics but also inspiring many new thrilling applications such as programmable on-demand optics and photonics in future. In order to overcome the limits imposed by passive metasurfaces, extensive researches have bee… Show more

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Cited by 327 publications
(214 citation statements)
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References 287 publications
(382 reference statements)
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“…High‐index dielectric nanostructures have emerged as a promising alternative, and are expected to complement or even replace plasmonic nanostructures for a wide range of potential applications . Besides their complementary metal‐oxide‐semiconductor (CMOS) compatibility and low loss characteristics, dielectric nanostructures offer a powerful platform for efficient manipulation and localization of light based on the control over both optically induced electric and magnetic Mie‐type resonances, offering a great potential for future on‐chip applications in the nonlinear regime .…”
Section: Introductionmentioning
confidence: 99%
“…High‐index dielectric nanostructures have emerged as a promising alternative, and are expected to complement or even replace plasmonic nanostructures for a wide range of potential applications . Besides their complementary metal‐oxide‐semiconductor (CMOS) compatibility and low loss characteristics, dielectric nanostructures offer a powerful platform for efficient manipulation and localization of light based on the control over both optically induced electric and magnetic Mie‐type resonances, offering a great potential for future on‐chip applications in the nonlinear regime .…”
Section: Introductionmentioning
confidence: 99%
“…Metamaterials are artificial engineered bulks with regular nanostructures that show exotic optical properties [117]. Combining the emerging field of optical metamaterials with LCs provides an extremely attractive quality, i.e., tunability, which is of the utmost importance in applications such as optically addressed spatial light modulators, tunable photonic materials and dynamic holography [118][119][120]. When integrating LCs with metamaterials, one can modify the director alignment of LCs by applying external stimuli and therefore manipulating the overall optical characteristics of the composite [119].…”
Section: Introductionmentioning
confidence: 99%
“…Different functions can be achieved based on reconfigurable metamaterials with different configurations of active components. Active functions and features achieved by tunable or reconfigurable metamaterials are highly desired in the field of science, engineering, and military . There are many tuning mechanisms for controlling the active components, such as electric, thermal, and optical .…”
Section: Introductionmentioning
confidence: 99%
“…Active functions and features achieved by tunable or reconfigurable metamaterials are highly desired in the field of science, engineering, and military. 60 There are many tuning mechanisms for controlling the active components, such as electric, [60][61][62][63][64] thermal, [65][66][67][68] and optical. [69][70][71][72] Various types of active or tunable materials have been explored in tunable and reconfigurable metamaterials such as transparent conductive oxides, 73,74 ferroelectrics, 75,76 liquid crystal, 77,78 graphene, 61,79,80 and phase change materials [81][82][83][84] in terahertz.…”
Section: Introductionmentioning
confidence: 99%