TY - JOUR
T1 - Roadmap for Optical Metasurfaces
AU - Kuznetsov, Arseniy I.
AU - Brongersma, Mark L.
AU - Yao, Jin
AU - Chen, Mu Ku
AU - Levy, Uriel
AU - Tsai, Din Ping
AU - Zheludev, Nikolay I.
AU - Faraon, Andrei
AU - Arbabi, Amir
AU - Yu, Nanfang
AU - Chanda, Debashis
AU - Crozier, Kenneth B.
AU - Kildishev, Alexander V.
AU - Wang, Hao
AU - Yang, Joel K.W.
AU - Valentine, Jason G.
AU - Genevet, Patrice
AU - Fan, Jonathan A.
AU - Miller, Owen D.
AU - Majumdar, Arka
AU - Fröch, Johannes E.
AU - Brady, David
AU - Heide, Felix
AU - Veeraraghavan, Ashok
AU - Engheta, Nader
AU - Alù, Andrea
AU - Polman, Albert
AU - Atwater, Harry A.
AU - Thureja, Prachi
AU - Paniagua-Dominguez, Ramon
AU - Ha, Son Tung
AU - Barreda, Angela I.
AU - Schuller, Jon A.
AU - Staude, Isabelle
AU - Grinblat, Gustavo
AU - Kivshar, Yuri
AU - Peana, Samuel
AU - Yelin, Susanne F.
AU - Senichev, Alexander
AU - Shalaev, Vladimir M.
AU - Saha, Soham
AU - Boltasseva, Alexandra
AU - Rho, Junsuk
AU - Oh, Dong Kyo
AU - Kim, Joohoon
AU - Park, Junghyun
AU - Devlin, Robert
AU - Pala, Ragip A.
N1 - Publisher Copyright:
© 2024 American Chemical Society.
PY - 2024/3/20
Y1 - 2024/3/20
N2 - Metasurfaces have recently risen to prominence in optical research, providing unique functionalities that can be used for imaging, beam forming, holography, polarimetry, and many more, while keeping device dimensions small. Despite the fact that a vast range of basic metasurface designs has already been thoroughly studied in the literature, the number of metasurface-related papers is still growing at a rapid pace, as metasurface research is now spreading to adjacent fields, including computational imaging, augmented and virtual reality, automotive, display, biosensing, nonlinear, quantum and topological optics, optical computing, and more. At the same time, the ability of metasurfaces to perform optical functions in much more compact optical systems has triggered strong and constantly growing interest from various industries that greatly benefit from the availability of miniaturized, highly functional, and efficient optical components that can be integrated in optoelectronic systems at low cost. This creates a truly unique opportunity for the field of metasurfaces to make both a scientific and an industrial impact. The goal of this Roadmap is to mark this “golden age” of metasurface research and define future directions to encourage scientists and engineers to drive research and development in the field of metasurfaces toward both scientific excellence and broad industrial adoption.
AB - Metasurfaces have recently risen to prominence in optical research, providing unique functionalities that can be used for imaging, beam forming, holography, polarimetry, and many more, while keeping device dimensions small. Despite the fact that a vast range of basic metasurface designs has already been thoroughly studied in the literature, the number of metasurface-related papers is still growing at a rapid pace, as metasurface research is now spreading to adjacent fields, including computational imaging, augmented and virtual reality, automotive, display, biosensing, nonlinear, quantum and topological optics, optical computing, and more. At the same time, the ability of metasurfaces to perform optical functions in much more compact optical systems has triggered strong and constantly growing interest from various industries that greatly benefit from the availability of miniaturized, highly functional, and efficient optical components that can be integrated in optoelectronic systems at low cost. This creates a truly unique opportunity for the field of metasurfaces to make both a scientific and an industrial impact. The goal of this Roadmap is to mark this “golden age” of metasurface research and define future directions to encourage scientists and engineers to drive research and development in the field of metasurfaces toward both scientific excellence and broad industrial adoption.
KW - computational imaging
KW - emerging material platforms
KW - flat optics
KW - inverse and topological design
KW - large-scale nanofabrication
KW - metalens
KW - metasurface
KW - metasurface applications
KW - new concepts
KW - tunable metasurfaces
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U2 - 10.1021/acsphotonics.3c00457
DO - 10.1021/acsphotonics.3c00457
M3 - Review article
C2 - 38550347
AN - SCOPUS:85186417657
SN - 2330-4022
VL - 11
SP - 816
EP - 865
JO - ACS Photonics
JF - ACS Photonics
IS - 3
ER -