Abstract

In optical nanostructures used as artificial resonance-based color filters, there is unfortunate universal trade-off between spectral sharpness and angular tolerance as well as maximum extinction. We rigorously derive the maximum performance bounds of wavelength-rejection filters realized by single-layer plasmonic metasurfaces with a dominant resonance and weak near-field coupling, and propose a multi-layer approach to overcome these single-layer limits and trade-offs. We also present a realistic example that has a narrow full-width-at-half-maximum bandwidth of 24 nm with 10 dB extinction at 532 nm with good angular tolerance up to 60°. The performance of the proposed metasurface is close to the general theoretical bound.

© 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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    [Crossref]
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    [Crossref]
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    [Crossref]

2019 (1)

2018 (1)

K. Achouri and C. Caloz, “Design, concepts, and applications of electromagnetic metasurfaces,” Nanophotonics 7(6), 1095–1116 (2018).
[Crossref]

2017 (8)

C.-S. Park, V. R. Shrestha, W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Structural Color Filters Enabled by a Dielectric Metasurface Incorporating Hydrogenated Amorphous Silicon Nanodisks,” Sci. Rep. 7(1), 2556 (2017).
[Crossref]

T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
[Crossref]

V. Vashistha, G. Vaidya, R. S. Hegde, A. E. Serebryannikov, N. Bonod, and M. Krawczyk, “All-Dielectric Metasurfaces Based on Cross-Shaped Resonators for Color Pixels with Extended Gamut,” ACS Photonics 4(5), 1076–1082 (2017).
[Crossref]

S. Sun, Z. Zhou, C. Zhang, Y. Gao, Z. Duan, S. Xiao, and Q. Song, “All-Dielectric Full-Color Printing with TiO2 Metasurfaces,” ACS Nano 11(5), 4445–4452 (2017).
[Crossref]

D. Arslan, K. E. Chong, A. E. Miroshnichenko, D.-Y. Choi, D. N. Neshev, T. Pertsch, Y. S. Kivshar, and I. Staude, “Angle-selective all-dielectric Huygens’ metasurfaces,” J. Phys. D: Appl. Phys. 50(43), 434002 (2017).
[Crossref]

V. Flauraud, M. Reyes, R. R. P. Domínguez, A. I. Kuznetsov, and J. Brugger, “Silicon Nanostructures for Bright Field Full Color Prints,” ACS Photonics 4(8), 1913–1919 (2017).
[Crossref]

H. Wang, X. Wang, C. Yan, H. Zhao, J. Zhang, C. Santschi, and O. J. F. Martin, “Full Color Generation Using Silver Tandem Nanodisks,” ACS Nano 11(5), 4419–4427 (2017).
[Crossref]

W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Highly reflective subtractive color filters capitalizing on a silicon metasurface integrated with nanostructured aluminum mirrors,” Laser Photonics Rev. 11(3), 1600285 (2017).
[Crossref]

2016 (1)

L. Duempelmann, A. Luu-Dinh, B. Gallinet, and L. Novotny, “Four-Fold Color Filter Based on Plasmonic Phase Retarder,” ACS Photonics 3(2), 190–196 (2016).
[Crossref]

2015 (6)

S.-C. Yang, K. Richter, and W.-J. Fischer, “Multicolor generation using silicon nanodisk absorber,” Appl. Phys. Lett. 106(8), 081112 (2015).
[Crossref]

B. Xu, D. Zhang, Y. Huang, B. Li, Q. Wang, B. Sheng, and S. Zhuang, “Versatile method for adjusting fabrication errors of guided-mode resonance filters,” Opt. Commun. 353(15), 10–16 (2015).
[Crossref]

S. He, Z. Shi, X. Li, X. Gao, Z. Wang, Q. Liu, G. Zhu, M. Zhang, H. Zhu, and Y. Wang, “Membrane guided-mode resonant color filters exhibiting adjustable spectral response,” Opt. Commun. 342(1), 129–135 (2015).
[Crossref]

K. Achouri, B. A. Khan, S. Gupta, G. Lavigne, M. A. Salem, and C. Caloz, “Synthesis of Electromagnetic Metasurfaces: Principles and Illustrations,” EPJ Appl. Metamat. 2(12), 12 (2015).
[Crossref]

K. Achouri, M. A. Salem, and C. Caloz, “General Metasurface Synthesis Based on Susceptibility Tensors,” IEEE Trans. Antennas Propag. 63(7), 2977–2991 (2015).
[Crossref]

M. M. Palakkamanil and M. P. Fielden, “Effects of malicious ocular laser exposure in commercial airline pilots,” Can. J. Ophthalmol. 50(6), 429–432 (2015).
[Crossref]

2014 (2)

J. Olson, A. Manjavacas, L. Liu, W.-S. Chang, B. Foerster, N. S. King, M. W. Knight, P. Nordlander, N. J. Halas, and S. Link, “Vivid, full-color aluminum plasmonic pixels,” Proc. Natl. Acad. Sci. U. S. A. 111(40), 14348–14353 (2014).
[Crossref]

S. J. Tan, L. Zhang, D. Zhu, X. M. Goh, Y. M. Wang, K. Kumar, C.-W. Qiu, and J. K. W. Yang, “Plasmonic Color Palettes for Photorealistic Printing with Aluminum Nanostructures,” Nano Lett. 14(7), 4023–4029 (2014).
[Crossref]

2013 (5)

G. Si, Y. Zhao, J. Lv, M. Lu, F. Wang, H. Liu, N. Xiang, T. J. Huang, A. J. Danner, J. Teng, and Y. J. Liu, “Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays,” Nanoscale 5(14), 6243–6248 (2013).
[Crossref]

Y.-K. R. Wu, A. E. Hollowell, C. Zhang, and L. Jay Guo, “Angle-Insensitive Structural Colours based on Metallic Nanocavities and Coloured Pixels beyond the Diffraction limit,” Sci. Rep. 3(1), 1194 (2013).
[Crossref]

B. Zeng, Y. Gao, and F. J. Bartoli, “Ultrathin Nanostructured Metals for Highly Transmissive Plasmonic Subtractive Color Filters,” Sci. Rep. 3(1), 2840 (2013).
[Crossref]

Z. Wang, Z. Lai, T. Yu, and Z. Hu, “Design and characterization of guided mode resonance filters with the improved structure for facile fabrication,” Optik 124(21), 4805–4807 (2013).
[Crossref]

M. J. Uddin and R. Magnusson, “Highly efficient color filter array using resonant Si3N4 gratings,” Opt. Express 21(10), 12495–12506 (2013).
[Crossref]

2012 (2)

K. Kumar, H. Duan, R. S. Hegde, S. C. W. Koh, J. N. Wei, and J. K. W. Yang, “Printing colour at the optical diffraction limit,” Nat. Nanotechnol. 7(9), 557–561 (2012).
[Crossref]

M. J. Uddin and R. Magnusson, “Efficient guided-mode-resonant tunable color filters,” IEEE Photonics Technol. Lett. 24(17), 1552–1554 (2012).
[Crossref]

2010 (2)

Z. Yu, A. Raman, and S. Fan, “Fundamental limit of nanophotonic light trapping in solar cells,” Proc. Natl. Acad. Sci. U. S. A. 107(41), 17491–17496 (2010).
[Crossref]

Z. Ruan and S. Fan, “Temporal Coupled-Mode Theory for Fano Resonance in Light Scattering by a Single Obstacle,” J. Phys. Chem. C 114(16), 7324–7329 (2010).
[Crossref]

2004 (1)

W. Suh, Z. Wang, and S. Fan, “Temporal coupled-mode theory and the presence of non-orthogonal modes in lossless multimode cavities,” IEEE J. Quantum Electron. 40(10), 1511–1518 (2004).
[Crossref]

2003 (2)

S. Fan, W. Suh, and J. D. Joannopoulos, “Temporal Coupled-Mode Theory for the Fano Resonance in Optical Resonators,” J. Opt. Soc. Am. A 20(3), 569–572 (2003).
[Crossref]

E. F. Kuester, M. A. Mohamed, M. Piket-May, and C. L. Holloway, “Averaged Transition Conditions for Electromagnetic Fields at a Metafilm,” IEEE Trans. Antennas Propag. 51(10), 2641–2651 (2003).
[Crossref]

2002 (1)

1997 (1)

1972 (1)

P. B. Johnson and R. W. Christy, “Optical constants of the noble metals,” Phys. Rev. B 6(12), 4370–4379 (1972).
[Crossref]

Abbarchi, M.

T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
[Crossref]

Achouri, K.

K. Achouri and C. Caloz, “Design, concepts, and applications of electromagnetic metasurfaces,” Nanophotonics 7(6), 1095–1116 (2018).
[Crossref]

K. Achouri, B. A. Khan, S. Gupta, G. Lavigne, M. A. Salem, and C. Caloz, “Synthesis of Electromagnetic Metasurfaces: Principles and Illustrations,” EPJ Appl. Metamat. 2(12), 12 (2015).
[Crossref]

K. Achouri, M. A. Salem, and C. Caloz, “General Metasurface Synthesis Based on Susceptibility Tensors,” IEEE Trans. Antennas Propag. 63(7), 2977–2991 (2015).
[Crossref]

Arslan, D.

D. Arslan, K. E. Chong, A. E. Miroshnichenko, D.-Y. Choi, D. N. Neshev, T. Pertsch, Y. S. Kivshar, and I. Staude, “Angle-selective all-dielectric Huygens’ metasurfaces,” J. Phys. D: Appl. Phys. 50(43), 434002 (2017).
[Crossref]

Bartoli, F. J.

B. Zeng, Y. Gao, and F. J. Bartoli, “Ultrathin Nanostructured Metals for Highly Transmissive Plasmonic Subtractive Color Filters,” Sci. Rep. 3(1), 2840 (2013).
[Crossref]

Berbezier, I.

T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
[Crossref]

Berthelot, J.

T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
[Crossref]

Bonod, N.

T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
[Crossref]

V. Vashistha, G. Vaidya, R. S. Hegde, A. E. Serebryannikov, N. Bonod, and M. Krawczyk, “All-Dielectric Metasurfaces Based on Cross-Shaped Resonators for Color Pixels with Extended Gamut,” ACS Photonics 4(5), 1076–1082 (2017).
[Crossref]

Brugger, J.

V. Flauraud, M. Reyes, R. R. P. Domínguez, A. I. Kuznetsov, and J. Brugger, “Silicon Nanostructures for Bright Field Full Color Prints,” ACS Photonics 4(8), 1913–1919 (2017).
[Crossref]

Caloz, C.

K. Achouri and C. Caloz, “Design, concepts, and applications of electromagnetic metasurfaces,” Nanophotonics 7(6), 1095–1116 (2018).
[Crossref]

K. Achouri, M. A. Salem, and C. Caloz, “General Metasurface Synthesis Based on Susceptibility Tensors,” IEEE Trans. Antennas Propag. 63(7), 2977–2991 (2015).
[Crossref]

K. Achouri, B. A. Khan, S. Gupta, G. Lavigne, M. A. Salem, and C. Caloz, “Synthesis of Electromagnetic Metasurfaces: Principles and Illustrations,” EPJ Appl. Metamat. 2(12), 12 (2015).
[Crossref]

Chang, W.-S.

J. Olson, A. Manjavacas, L. Liu, W.-S. Chang, B. Foerster, N. S. King, M. W. Knight, P. Nordlander, N. J. Halas, and S. Link, “Vivid, full-color aluminum plasmonic pixels,” Proc. Natl. Acad. Sci. U. S. A. 111(40), 14348–14353 (2014).
[Crossref]

Choi, D.-Y.

C.-S. Park, I. Koirala, S. Gao, V. R. Shrestha, S.-S. Lee, and D.-Y. Choi, “Structural color filters based on an all-dielectric metasurface exploiting silicon-rich silicon nitride nanodisks,” Opt. Express 27(2), 667–679 (2019).
[Crossref]

D. Arslan, K. E. Chong, A. E. Miroshnichenko, D.-Y. Choi, D. N. Neshev, T. Pertsch, Y. S. Kivshar, and I. Staude, “Angle-selective all-dielectric Huygens’ metasurfaces,” J. Phys. D: Appl. Phys. 50(43), 434002 (2017).
[Crossref]

W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Highly reflective subtractive color filters capitalizing on a silicon metasurface integrated with nanostructured aluminum mirrors,” Laser Photonics Rev. 11(3), 1600285 (2017).
[Crossref]

C.-S. Park, V. R. Shrestha, W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Structural Color Filters Enabled by a Dielectric Metasurface Incorporating Hydrogenated Amorphous Silicon Nanodisks,” Sci. Rep. 7(1), 2556 (2017).
[Crossref]

Chong, K. E.

D. Arslan, K. E. Chong, A. E. Miroshnichenko, D.-Y. Choi, D. N. Neshev, T. Pertsch, Y. S. Kivshar, and I. Staude, “Angle-selective all-dielectric Huygens’ metasurfaces,” J. Phys. D: Appl. Phys. 50(43), 434002 (2017).
[Crossref]

Christy, R. W.

P. B. Johnson and R. W. Christy, “Optical constants of the noble metals,” Phys. Rev. B 6(12), 4370–4379 (1972).
[Crossref]

Claude, J.-B.

T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
[Crossref]

Danner, A. J.

G. Si, Y. Zhao, J. Lv, M. Lu, F. Wang, H. Liu, N. Xiang, T. J. Huang, A. J. Danner, J. Teng, and Y. J. Liu, “Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays,” Nanoscale 5(14), 6243–6248 (2013).
[Crossref]

David, T.

T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
[Crossref]

Delobbe, A.

T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
[Crossref]

Domínguez, R. R. P.

V. Flauraud, M. Reyes, R. R. P. Domínguez, A. I. Kuznetsov, and J. Brugger, “Silicon Nanostructures for Bright Field Full Color Prints,” ACS Photonics 4(8), 1913–1919 (2017).
[Crossref]

Duan, H.

K. Kumar, H. Duan, R. S. Hegde, S. C. W. Koh, J. N. Wei, and J. K. W. Yang, “Printing colour at the optical diffraction limit,” Nat. Nanotechnol. 7(9), 557–561 (2012).
[Crossref]

Duan, Z.

S. Sun, Z. Zhou, C. Zhang, Y. Gao, Z. Duan, S. Xiao, and Q. Song, “All-Dielectric Full-Color Printing with TiO2 Metasurfaces,” ACS Nano 11(5), 4445–4452 (2017).
[Crossref]

Duempelmann, L.

L. Duempelmann, A. Luu-Dinh, B. Gallinet, and L. Novotny, “Four-Fold Color Filter Based on Plasmonic Phase Retarder,” ACS Photonics 3(2), 190–196 (2016).
[Crossref]

Fan, S.

Z. Yu, A. Raman, and S. Fan, “Fundamental limit of nanophotonic light trapping in solar cells,” Proc. Natl. Acad. Sci. U. S. A. 107(41), 17491–17496 (2010).
[Crossref]

Z. Ruan and S. Fan, “Temporal Coupled-Mode Theory for Fano Resonance in Light Scattering by a Single Obstacle,” J. Phys. Chem. C 114(16), 7324–7329 (2010).
[Crossref]

W. Suh, Z. Wang, and S. Fan, “Temporal coupled-mode theory and the presence of non-orthogonal modes in lossless multimode cavities,” IEEE J. Quantum Electron. 40(10), 1511–1518 (2004).
[Crossref]

S. Fan, W. Suh, and J. D. Joannopoulos, “Temporal Coupled-Mode Theory for the Fano Resonance in Optical Resonators,” J. Opt. Soc. Am. A 20(3), 569–572 (2003).
[Crossref]

Favre, L.

T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
[Crossref]

Fielden, M. P.

M. M. Palakkamanil and M. P. Fielden, “Effects of malicious ocular laser exposure in commercial airline pilots,” Can. J. Ophthalmol. 50(6), 429–432 (2015).
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S.-C. Yang, K. Richter, and W.-J. Fischer, “Multicolor generation using silicon nanodisk absorber,” Appl. Phys. Lett. 106(8), 081112 (2015).
[Crossref]

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V. Flauraud, M. Reyes, R. R. P. Domínguez, A. I. Kuznetsov, and J. Brugger, “Silicon Nanostructures for Bright Field Full Color Prints,” ACS Photonics 4(8), 1913–1919 (2017).
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J. Olson, A. Manjavacas, L. Liu, W.-S. Chang, B. Foerster, N. S. King, M. W. Knight, P. Nordlander, N. J. Halas, and S. Link, “Vivid, full-color aluminum plasmonic pixels,” Proc. Natl. Acad. Sci. U. S. A. 111(40), 14348–14353 (2014).
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L. Duempelmann, A. Luu-Dinh, B. Gallinet, and L. Novotny, “Four-Fold Color Filter Based on Plasmonic Phase Retarder,” ACS Photonics 3(2), 190–196 (2016).
[Crossref]

Gao, S.

C.-S. Park, I. Koirala, S. Gao, V. R. Shrestha, S.-S. Lee, and D.-Y. Choi, “Structural color filters based on an all-dielectric metasurface exploiting silicon-rich silicon nitride nanodisks,” Opt. Express 27(2), 667–679 (2019).
[Crossref]

W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Highly reflective subtractive color filters capitalizing on a silicon metasurface integrated with nanostructured aluminum mirrors,” Laser Photonics Rev. 11(3), 1600285 (2017).
[Crossref]

C.-S. Park, V. R. Shrestha, W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Structural Color Filters Enabled by a Dielectric Metasurface Incorporating Hydrogenated Amorphous Silicon Nanodisks,” Sci. Rep. 7(1), 2556 (2017).
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S. He, Z. Shi, X. Li, X. Gao, Z. Wang, Q. Liu, G. Zhu, M. Zhang, H. Zhu, and Y. Wang, “Membrane guided-mode resonant color filters exhibiting adjustable spectral response,” Opt. Commun. 342(1), 129–135 (2015).
[Crossref]

Gao, Y.

S. Sun, Z. Zhou, C. Zhang, Y. Gao, Z. Duan, S. Xiao, and Q. Song, “All-Dielectric Full-Color Printing with TiO2 Metasurfaces,” ACS Nano 11(5), 4445–4452 (2017).
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K. Achouri, B. A. Khan, S. Gupta, G. Lavigne, M. A. Salem, and C. Caloz, “Synthesis of Electromagnetic Metasurfaces: Principles and Illustrations,” EPJ Appl. Metamat. 2(12), 12 (2015).
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J. Olson, A. Manjavacas, L. Liu, W.-S. Chang, B. Foerster, N. S. King, M. W. Knight, P. Nordlander, N. J. Halas, and S. Link, “Vivid, full-color aluminum plasmonic pixels,” Proc. Natl. Acad. Sci. U. S. A. 111(40), 14348–14353 (2014).
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S. He, Z. Shi, X. Li, X. Gao, Z. Wang, Q. Liu, G. Zhu, M. Zhang, H. Zhu, and Y. Wang, “Membrane guided-mode resonant color filters exhibiting adjustable spectral response,” Opt. Commun. 342(1), 129–135 (2015).
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V. Vashistha, G. Vaidya, R. S. Hegde, A. E. Serebryannikov, N. Bonod, and M. Krawczyk, “All-Dielectric Metasurfaces Based on Cross-Shaped Resonators for Color Pixels with Extended Gamut,” ACS Photonics 4(5), 1076–1082 (2017).
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K. Kumar, H. Duan, R. S. Hegde, S. C. W. Koh, J. N. Wei, and J. K. W. Yang, “Printing colour at the optical diffraction limit,” Nat. Nanotechnol. 7(9), 557–561 (2012).
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E. F. Kuester, M. A. Mohamed, M. Piket-May, and C. L. Holloway, “Averaged Transition Conditions for Electromagnetic Fields at a Metafilm,” IEEE Trans. Antennas Propag. 51(10), 2641–2651 (2003).
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Z. Wang, Z. Lai, T. Yu, and Z. Hu, “Design and characterization of guided mode resonance filters with the improved structure for facile fabrication,” Optik 124(21), 4805–4807 (2013).
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G. Si, Y. Zhao, J. Lv, M. Lu, F. Wang, H. Liu, N. Xiang, T. J. Huang, A. J. Danner, J. Teng, and Y. J. Liu, “Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays,” Nanoscale 5(14), 6243–6248 (2013).
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B. Xu, D. Zhang, Y. Huang, B. Li, Q. Wang, B. Sheng, and S. Zhuang, “Versatile method for adjusting fabrication errors of guided-mode resonance filters,” Opt. Commun. 353(15), 10–16 (2015).
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Jay Guo, L.

Y.-K. R. Wu, A. E. Hollowell, C. Zhang, and L. Jay Guo, “Angle-Insensitive Structural Colours based on Metallic Nanocavities and Coloured Pixels beyond the Diffraction limit,” Sci. Rep. 3(1), 1194 (2013).
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[Crossref]

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W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Highly reflective subtractive color filters capitalizing on a silicon metasurface integrated with nanostructured aluminum mirrors,” Laser Photonics Rev. 11(3), 1600285 (2017).
[Crossref]

C.-S. Park, V. R. Shrestha, W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Structural Color Filters Enabled by a Dielectric Metasurface Incorporating Hydrogenated Amorphous Silicon Nanodisks,” Sci. Rep. 7(1), 2556 (2017).
[Crossref]

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J. Olson, A. Manjavacas, L. Liu, W.-S. Chang, B. Foerster, N. S. King, M. W. Knight, P. Nordlander, N. J. Halas, and S. Link, “Vivid, full-color aluminum plasmonic pixels,” Proc. Natl. Acad. Sci. U. S. A. 111(40), 14348–14353 (2014).
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D. Arslan, K. E. Chong, A. E. Miroshnichenko, D.-Y. Choi, D. N. Neshev, T. Pertsch, Y. S. Kivshar, and I. Staude, “Angle-selective all-dielectric Huygens’ metasurfaces,” J. Phys. D: Appl. Phys. 50(43), 434002 (2017).
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J. Olson, A. Manjavacas, L. Liu, W.-S. Chang, B. Foerster, N. S. King, M. W. Knight, P. Nordlander, N. J. Halas, and S. Link, “Vivid, full-color aluminum plasmonic pixels,” Proc. Natl. Acad. Sci. U. S. A. 111(40), 14348–14353 (2014).
[Crossref]

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K. Kumar, H. Duan, R. S. Hegde, S. C. W. Koh, J. N. Wei, and J. K. W. Yang, “Printing colour at the optical diffraction limit,” Nat. Nanotechnol. 7(9), 557–561 (2012).
[Crossref]

Koirala, I.

Krawczyk, M.

V. Vashistha, G. Vaidya, R. S. Hegde, A. E. Serebryannikov, N. Bonod, and M. Krawczyk, “All-Dielectric Metasurfaces Based on Cross-Shaped Resonators for Color Pixels with Extended Gamut,” ACS Photonics 4(5), 1076–1082 (2017).
[Crossref]

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E. F. Kuester, M. A. Mohamed, M. Piket-May, and C. L. Holloway, “Averaged Transition Conditions for Electromagnetic Fields at a Metafilm,” IEEE Trans. Antennas Propag. 51(10), 2641–2651 (2003).
[Crossref]

Kumar, K.

S. J. Tan, L. Zhang, D. Zhu, X. M. Goh, Y. M. Wang, K. Kumar, C.-W. Qiu, and J. K. W. Yang, “Plasmonic Color Palettes for Photorealistic Printing with Aluminum Nanostructures,” Nano Lett. 14(7), 4023–4029 (2014).
[Crossref]

K. Kumar, H. Duan, R. S. Hegde, S. C. W. Koh, J. N. Wei, and J. K. W. Yang, “Printing colour at the optical diffraction limit,” Nat. Nanotechnol. 7(9), 557–561 (2012).
[Crossref]

Kuznetsov, A. I.

V. Flauraud, M. Reyes, R. R. P. Domínguez, A. I. Kuznetsov, and J. Brugger, “Silicon Nanostructures for Bright Field Full Color Prints,” ACS Photonics 4(8), 1913–1919 (2017).
[Crossref]

Lai, Z.

Z. Wang, Z. Lai, T. Yu, and Z. Hu, “Design and characterization of guided mode resonance filters with the improved structure for facile fabrication,” Optik 124(21), 4805–4807 (2013).
[Crossref]

Lavigne, G.

K. Achouri, B. A. Khan, S. Gupta, G. Lavigne, M. A. Salem, and C. Caloz, “Synthesis of Electromagnetic Metasurfaces: Principles and Illustrations,” EPJ Appl. Metamat. 2(12), 12 (2015).
[Crossref]

Lee, S.-S.

C.-S. Park, I. Koirala, S. Gao, V. R. Shrestha, S.-S. Lee, and D.-Y. Choi, “Structural color filters based on an all-dielectric metasurface exploiting silicon-rich silicon nitride nanodisks,” Opt. Express 27(2), 667–679 (2019).
[Crossref]

C.-S. Park, V. R. Shrestha, W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Structural Color Filters Enabled by a Dielectric Metasurface Incorporating Hydrogenated Amorphous Silicon Nanodisks,” Sci. Rep. 7(1), 2556 (2017).
[Crossref]

W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Highly reflective subtractive color filters capitalizing on a silicon metasurface integrated with nanostructured aluminum mirrors,” Laser Photonics Rev. 11(3), 1600285 (2017).
[Crossref]

Li, B.

B. Xu, D. Zhang, Y. Huang, B. Li, Q. Wang, B. Sheng, and S. Zhuang, “Versatile method for adjusting fabrication errors of guided-mode resonance filters,” Opt. Commun. 353(15), 10–16 (2015).
[Crossref]

Li, X.

S. He, Z. Shi, X. Li, X. Gao, Z. Wang, Q. Liu, G. Zhu, M. Zhang, H. Zhu, and Y. Wang, “Membrane guided-mode resonant color filters exhibiting adjustable spectral response,” Opt. Commun. 342(1), 129–135 (2015).
[Crossref]

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J. Olson, A. Manjavacas, L. Liu, W.-S. Chang, B. Foerster, N. S. King, M. W. Knight, P. Nordlander, N. J. Halas, and S. Link, “Vivid, full-color aluminum plasmonic pixels,” Proc. Natl. Acad. Sci. U. S. A. 111(40), 14348–14353 (2014).
[Crossref]

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G. Si, Y. Zhao, J. Lv, M. Lu, F. Wang, H. Liu, N. Xiang, T. J. Huang, A. J. Danner, J. Teng, and Y. J. Liu, “Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays,” Nanoscale 5(14), 6243–6248 (2013).
[Crossref]

Liu, L.

J. Olson, A. Manjavacas, L. Liu, W.-S. Chang, B. Foerster, N. S. King, M. W. Knight, P. Nordlander, N. J. Halas, and S. Link, “Vivid, full-color aluminum plasmonic pixels,” Proc. Natl. Acad. Sci. U. S. A. 111(40), 14348–14353 (2014).
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Liu, Q.

S. He, Z. Shi, X. Li, X. Gao, Z. Wang, Q. Liu, G. Zhu, M. Zhang, H. Zhu, and Y. Wang, “Membrane guided-mode resonant color filters exhibiting adjustable spectral response,” Opt. Commun. 342(1), 129–135 (2015).
[Crossref]

Liu, Y. J.

G. Si, Y. Zhao, J. Lv, M. Lu, F. Wang, H. Liu, N. Xiang, T. J. Huang, A. J. Danner, J. Teng, and Y. J. Liu, “Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays,” Nanoscale 5(14), 6243–6248 (2013).
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Lu, M.

G. Si, Y. Zhao, J. Lv, M. Lu, F. Wang, H. Liu, N. Xiang, T. J. Huang, A. J. Danner, J. Teng, and Y. J. Liu, “Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays,” Nanoscale 5(14), 6243–6248 (2013).
[Crossref]

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L. Duempelmann, A. Luu-Dinh, B. Gallinet, and L. Novotny, “Four-Fold Color Filter Based on Plasmonic Phase Retarder,” ACS Photonics 3(2), 190–196 (2016).
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G. Si, Y. Zhao, J. Lv, M. Lu, F. Wang, H. Liu, N. Xiang, T. J. Huang, A. J. Danner, J. Teng, and Y. J. Liu, “Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays,” Nanoscale 5(14), 6243–6248 (2013).
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Magnusson, R.

Manjavacas, A.

J. Olson, A. Manjavacas, L. Liu, W.-S. Chang, B. Foerster, N. S. King, M. W. Knight, P. Nordlander, N. J. Halas, and S. Link, “Vivid, full-color aluminum plasmonic pixels,” Proc. Natl. Acad. Sci. U. S. A. 111(40), 14348–14353 (2014).
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Martin, O. J. F.

H. Wang, X. Wang, C. Yan, H. Zhao, J. Zhang, C. Santschi, and O. J. F. Martin, “Full Color Generation Using Silver Tandem Nanodisks,” ACS Nano 11(5), 4419–4427 (2017).
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T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
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D. Arslan, K. E. Chong, A. E. Miroshnichenko, D.-Y. Choi, D. N. Neshev, T. Pertsch, Y. S. Kivshar, and I. Staude, “Angle-selective all-dielectric Huygens’ metasurfaces,” J. Phys. D: Appl. Phys. 50(43), 434002 (2017).
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E. F. Kuester, M. A. Mohamed, M. Piket-May, and C. L. Holloway, “Averaged Transition Conditions for Electromagnetic Fields at a Metafilm,” IEEE Trans. Antennas Propag. 51(10), 2641–2651 (2003).
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T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
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D. Arslan, K. E. Chong, A. E. Miroshnichenko, D.-Y. Choi, D. N. Neshev, T. Pertsch, Y. S. Kivshar, and I. Staude, “Angle-selective all-dielectric Huygens’ metasurfaces,” J. Phys. D: Appl. Phys. 50(43), 434002 (2017).
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J. Olson, A. Manjavacas, L. Liu, W.-S. Chang, B. Foerster, N. S. King, M. W. Knight, P. Nordlander, N. J. Halas, and S. Link, “Vivid, full-color aluminum plasmonic pixels,” Proc. Natl. Acad. Sci. U. S. A. 111(40), 14348–14353 (2014).
[Crossref]

Novotny, L.

L. Duempelmann, A. Luu-Dinh, B. Gallinet, and L. Novotny, “Four-Fold Color Filter Based on Plasmonic Phase Retarder,” ACS Photonics 3(2), 190–196 (2016).
[Crossref]

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J. Olson, A. Manjavacas, L. Liu, W.-S. Chang, B. Foerster, N. S. King, M. W. Knight, P. Nordlander, N. J. Halas, and S. Link, “Vivid, full-color aluminum plasmonic pixels,” Proc. Natl. Acad. Sci. U. S. A. 111(40), 14348–14353 (2014).
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M. M. Palakkamanil and M. P. Fielden, “Effects of malicious ocular laser exposure in commercial airline pilots,” Can. J. Ophthalmol. 50(6), 429–432 (2015).
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Park, C.-S.

C.-S. Park, I. Koirala, S. Gao, V. R. Shrestha, S.-S. Lee, and D.-Y. Choi, “Structural color filters based on an all-dielectric metasurface exploiting silicon-rich silicon nitride nanodisks,” Opt. Express 27(2), 667–679 (2019).
[Crossref]

C.-S. Park, V. R. Shrestha, W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Structural Color Filters Enabled by a Dielectric Metasurface Incorporating Hydrogenated Amorphous Silicon Nanodisks,” Sci. Rep. 7(1), 2556 (2017).
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D. Arslan, K. E. Chong, A. E. Miroshnichenko, D.-Y. Choi, D. N. Neshev, T. Pertsch, Y. S. Kivshar, and I. Staude, “Angle-selective all-dielectric Huygens’ metasurfaces,” J. Phys. D: Appl. Phys. 50(43), 434002 (2017).
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E. F. Kuester, M. A. Mohamed, M. Piket-May, and C. L. Holloway, “Averaged Transition Conditions for Electromagnetic Fields at a Metafilm,” IEEE Trans. Antennas Propag. 51(10), 2641–2651 (2003).
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S. J. Tan, L. Zhang, D. Zhu, X. M. Goh, Y. M. Wang, K. Kumar, C.-W. Qiu, and J. K. W. Yang, “Plasmonic Color Palettes for Photorealistic Printing with Aluminum Nanostructures,” Nano Lett. 14(7), 4023–4029 (2014).
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S.-C. Yang, K. Richter, and W.-J. Fischer, “Multicolor generation using silicon nanodisk absorber,” Appl. Phys. Lett. 106(8), 081112 (2015).
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T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
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H. Wang, X. Wang, C. Yan, H. Zhao, J. Zhang, C. Santschi, and O. J. F. Martin, “Full Color Generation Using Silver Tandem Nanodisks,” ACS Nano 11(5), 4419–4427 (2017).
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V. Vashistha, G. Vaidya, R. S. Hegde, A. E. Serebryannikov, N. Bonod, and M. Krawczyk, “All-Dielectric Metasurfaces Based on Cross-Shaped Resonators for Color Pixels with Extended Gamut,” ACS Photonics 4(5), 1076–1082 (2017).
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B. Xu, D. Zhang, Y. Huang, B. Li, Q. Wang, B. Sheng, and S. Zhuang, “Versatile method for adjusting fabrication errors of guided-mode resonance filters,” Opt. Commun. 353(15), 10–16 (2015).
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Shi, Z.

S. He, Z. Shi, X. Li, X. Gao, Z. Wang, Q. Liu, G. Zhu, M. Zhang, H. Zhu, and Y. Wang, “Membrane guided-mode resonant color filters exhibiting adjustable spectral response,” Opt. Commun. 342(1), 129–135 (2015).
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Shrestha, V. R.

C.-S. Park, I. Koirala, S. Gao, V. R. Shrestha, S.-S. Lee, and D.-Y. Choi, “Structural color filters based on an all-dielectric metasurface exploiting silicon-rich silicon nitride nanodisks,” Opt. Express 27(2), 667–679 (2019).
[Crossref]

C.-S. Park, V. R. Shrestha, W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Structural Color Filters Enabled by a Dielectric Metasurface Incorporating Hydrogenated Amorphous Silicon Nanodisks,” Sci. Rep. 7(1), 2556 (2017).
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G. Si, Y. Zhao, J. Lv, M. Lu, F. Wang, H. Liu, N. Xiang, T. J. Huang, A. J. Danner, J. Teng, and Y. J. Liu, “Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays,” Nanoscale 5(14), 6243–6248 (2013).
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Song, Q.

S. Sun, Z. Zhou, C. Zhang, Y. Gao, Z. Duan, S. Xiao, and Q. Song, “All-Dielectric Full-Color Printing with TiO2 Metasurfaces,” ACS Nano 11(5), 4445–4452 (2017).
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D. Arslan, K. E. Chong, A. E. Miroshnichenko, D.-Y. Choi, D. N. Neshev, T. Pertsch, Y. S. Kivshar, and I. Staude, “Angle-selective all-dielectric Huygens’ metasurfaces,” J. Phys. D: Appl. Phys. 50(43), 434002 (2017).
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S. J. Tan, L. Zhang, D. Zhu, X. M. Goh, Y. M. Wang, K. Kumar, C.-W. Qiu, and J. K. W. Yang, “Plasmonic Color Palettes for Photorealistic Printing with Aluminum Nanostructures,” Nano Lett. 14(7), 4023–4029 (2014).
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G. Si, Y. Zhao, J. Lv, M. Lu, F. Wang, H. Liu, N. Xiang, T. J. Huang, A. J. Danner, J. Teng, and Y. J. Liu, “Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays,” Nanoscale 5(14), 6243–6248 (2013).
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Vashistha, V.

V. Vashistha, G. Vaidya, R. S. Hegde, A. E. Serebryannikov, N. Bonod, and M. Krawczyk, “All-Dielectric Metasurfaces Based on Cross-Shaped Resonators for Color Pixels with Extended Gamut,” ACS Photonics 4(5), 1076–1082 (2017).
[Crossref]

Wang, F.

G. Si, Y. Zhao, J. Lv, M. Lu, F. Wang, H. Liu, N. Xiang, T. J. Huang, A. J. Danner, J. Teng, and Y. J. Liu, “Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays,” Nanoscale 5(14), 6243–6248 (2013).
[Crossref]

Wang, H.

H. Wang, X. Wang, C. Yan, H. Zhao, J. Zhang, C. Santschi, and O. J. F. Martin, “Full Color Generation Using Silver Tandem Nanodisks,” ACS Nano 11(5), 4419–4427 (2017).
[Crossref]

Wang, Q.

B. Xu, D. Zhang, Y. Huang, B. Li, Q. Wang, B. Sheng, and S. Zhuang, “Versatile method for adjusting fabrication errors of guided-mode resonance filters,” Opt. Commun. 353(15), 10–16 (2015).
[Crossref]

Wang, X.

H. Wang, X. Wang, C. Yan, H. Zhao, J. Zhang, C. Santschi, and O. J. F. Martin, “Full Color Generation Using Silver Tandem Nanodisks,” ACS Nano 11(5), 4419–4427 (2017).
[Crossref]

Wang, Y.

S. He, Z. Shi, X. Li, X. Gao, Z. Wang, Q. Liu, G. Zhu, M. Zhang, H. Zhu, and Y. Wang, “Membrane guided-mode resonant color filters exhibiting adjustable spectral response,” Opt. Commun. 342(1), 129–135 (2015).
[Crossref]

Wang, Y. M.

S. J. Tan, L. Zhang, D. Zhu, X. M. Goh, Y. M. Wang, K. Kumar, C.-W. Qiu, and J. K. W. Yang, “Plasmonic Color Palettes for Photorealistic Printing with Aluminum Nanostructures,” Nano Lett. 14(7), 4023–4029 (2014).
[Crossref]

Wang, Z.

S. He, Z. Shi, X. Li, X. Gao, Z. Wang, Q. Liu, G. Zhu, M. Zhang, H. Zhu, and Y. Wang, “Membrane guided-mode resonant color filters exhibiting adjustable spectral response,” Opt. Commun. 342(1), 129–135 (2015).
[Crossref]

Z. Wang, Z. Lai, T. Yu, and Z. Hu, “Design and characterization of guided mode resonance filters with the improved structure for facile fabrication,” Optik 124(21), 4805–4807 (2013).
[Crossref]

W. Suh, Z. Wang, and S. Fan, “Temporal coupled-mode theory and the presence of non-orthogonal modes in lossless multimode cavities,” IEEE J. Quantum Electron. 40(10), 1511–1518 (2004).
[Crossref]

Wei, J. N.

K. Kumar, H. Duan, R. S. Hegde, S. C. W. Koh, J. N. Wei, and J. K. W. Yang, “Printing colour at the optical diffraction limit,” Nat. Nanotechnol. 7(9), 557–561 (2012).
[Crossref]

Wood, T.

T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
[Crossref]

Wu, Y.-K. R.

Y.-K. R. Wu, A. E. Hollowell, C. Zhang, and L. Jay Guo, “Angle-Insensitive Structural Colours based on Metallic Nanocavities and Coloured Pixels beyond the Diffraction limit,” Sci. Rep. 3(1), 1194 (2013).
[Crossref]

Xiang, N.

G. Si, Y. Zhao, J. Lv, M. Lu, F. Wang, H. Liu, N. Xiang, T. J. Huang, A. J. Danner, J. Teng, and Y. J. Liu, “Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays,” Nanoscale 5(14), 6243–6248 (2013).
[Crossref]

Xiao, S.

S. Sun, Z. Zhou, C. Zhang, Y. Gao, Z. Duan, S. Xiao, and Q. Song, “All-Dielectric Full-Color Printing with TiO2 Metasurfaces,” ACS Nano 11(5), 4445–4452 (2017).
[Crossref]

Xu, B.

B. Xu, D. Zhang, Y. Huang, B. Li, Q. Wang, B. Sheng, and S. Zhuang, “Versatile method for adjusting fabrication errors of guided-mode resonance filters,” Opt. Commun. 353(15), 10–16 (2015).
[Crossref]

Yan, C.

H. Wang, X. Wang, C. Yan, H. Zhao, J. Zhang, C. Santschi, and O. J. F. Martin, “Full Color Generation Using Silver Tandem Nanodisks,” ACS Nano 11(5), 4419–4427 (2017).
[Crossref]

Yang, J. K. W.

S. J. Tan, L. Zhang, D. Zhu, X. M. Goh, Y. M. Wang, K. Kumar, C.-W. Qiu, and J. K. W. Yang, “Plasmonic Color Palettes for Photorealistic Printing with Aluminum Nanostructures,” Nano Lett. 14(7), 4023–4029 (2014).
[Crossref]

K. Kumar, H. Duan, R. S. Hegde, S. C. W. Koh, J. N. Wei, and J. K. W. Yang, “Printing colour at the optical diffraction limit,” Nat. Nanotechnol. 7(9), 557–561 (2012).
[Crossref]

Yang, S.-C.

S.-C. Yang, K. Richter, and W.-J. Fischer, “Multicolor generation using silicon nanodisk absorber,” Appl. Phys. Lett. 106(8), 081112 (2015).
[Crossref]

Yu, T.

Z. Wang, Z. Lai, T. Yu, and Z. Hu, “Design and characterization of guided mode resonance filters with the improved structure for facile fabrication,” Optik 124(21), 4805–4807 (2013).
[Crossref]

Yu, Z.

Z. Yu, A. Raman, and S. Fan, “Fundamental limit of nanophotonic light trapping in solar cells,” Proc. Natl. Acad. Sci. U. S. A. 107(41), 17491–17496 (2010).
[Crossref]

Yue, W.

C.-S. Park, V. R. Shrestha, W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Structural Color Filters Enabled by a Dielectric Metasurface Incorporating Hydrogenated Amorphous Silicon Nanodisks,” Sci. Rep. 7(1), 2556 (2017).
[Crossref]

W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Highly reflective subtractive color filters capitalizing on a silicon metasurface integrated with nanostructured aluminum mirrors,” Laser Photonics Rev. 11(3), 1600285 (2017).
[Crossref]

Zeng, B.

B. Zeng, Y. Gao, and F. J. Bartoli, “Ultrathin Nanostructured Metals for Highly Transmissive Plasmonic Subtractive Color Filters,” Sci. Rep. 3(1), 2840 (2013).
[Crossref]

Zhang, C.

S. Sun, Z. Zhou, C. Zhang, Y. Gao, Z. Duan, S. Xiao, and Q. Song, “All-Dielectric Full-Color Printing with TiO2 Metasurfaces,” ACS Nano 11(5), 4445–4452 (2017).
[Crossref]

Y.-K. R. Wu, A. E. Hollowell, C. Zhang, and L. Jay Guo, “Angle-Insensitive Structural Colours based on Metallic Nanocavities and Coloured Pixels beyond the Diffraction limit,” Sci. Rep. 3(1), 1194 (2013).
[Crossref]

Zhang, D.

B. Xu, D. Zhang, Y. Huang, B. Li, Q. Wang, B. Sheng, and S. Zhuang, “Versatile method for adjusting fabrication errors of guided-mode resonance filters,” Opt. Commun. 353(15), 10–16 (2015).
[Crossref]

Zhang, J.

H. Wang, X. Wang, C. Yan, H. Zhao, J. Zhang, C. Santschi, and O. J. F. Martin, “Full Color Generation Using Silver Tandem Nanodisks,” ACS Nano 11(5), 4419–4427 (2017).
[Crossref]

Zhang, L.

S. J. Tan, L. Zhang, D. Zhu, X. M. Goh, Y. M. Wang, K. Kumar, C.-W. Qiu, and J. K. W. Yang, “Plasmonic Color Palettes for Photorealistic Printing with Aluminum Nanostructures,” Nano Lett. 14(7), 4023–4029 (2014).
[Crossref]

Zhang, M.

S. He, Z. Shi, X. Li, X. Gao, Z. Wang, Q. Liu, G. Zhu, M. Zhang, H. Zhu, and Y. Wang, “Membrane guided-mode resonant color filters exhibiting adjustable spectral response,” Opt. Commun. 342(1), 129–135 (2015).
[Crossref]

Zhao, H.

H. Wang, X. Wang, C. Yan, H. Zhao, J. Zhang, C. Santschi, and O. J. F. Martin, “Full Color Generation Using Silver Tandem Nanodisks,” ACS Nano 11(5), 4419–4427 (2017).
[Crossref]

Zhao, Y.

G. Si, Y. Zhao, J. Lv, M. Lu, F. Wang, H. Liu, N. Xiang, T. J. Huang, A. J. Danner, J. Teng, and Y. J. Liu, “Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays,” Nanoscale 5(14), 6243–6248 (2013).
[Crossref]

Zhou, Z.

S. Sun, Z. Zhou, C. Zhang, Y. Gao, Z. Duan, S. Xiao, and Q. Song, “All-Dielectric Full-Color Printing with TiO2 Metasurfaces,” ACS Nano 11(5), 4445–4452 (2017).
[Crossref]

Zhu, D.

S. J. Tan, L. Zhang, D. Zhu, X. M. Goh, Y. M. Wang, K. Kumar, C.-W. Qiu, and J. K. W. Yang, “Plasmonic Color Palettes for Photorealistic Printing with Aluminum Nanostructures,” Nano Lett. 14(7), 4023–4029 (2014).
[Crossref]

Zhu, G.

S. He, Z. Shi, X. Li, X. Gao, Z. Wang, Q. Liu, G. Zhu, M. Zhang, H. Zhu, and Y. Wang, “Membrane guided-mode resonant color filters exhibiting adjustable spectral response,” Opt. Commun. 342(1), 129–135 (2015).
[Crossref]

Zhu, H.

S. He, Z. Shi, X. Li, X. Gao, Z. Wang, Q. Liu, G. Zhu, M. Zhang, H. Zhu, and Y. Wang, “Membrane guided-mode resonant color filters exhibiting adjustable spectral response,” Opt. Commun. 342(1), 129–135 (2015).
[Crossref]

Zhuang, S.

B. Xu, D. Zhang, Y. Huang, B. Li, Q. Wang, B. Sheng, and S. Zhuang, “Versatile method for adjusting fabrication errors of guided-mode resonance filters,” Opt. Commun. 353(15), 10–16 (2015).
[Crossref]

ACS Nano (2)

H. Wang, X. Wang, C. Yan, H. Zhao, J. Zhang, C. Santschi, and O. J. F. Martin, “Full Color Generation Using Silver Tandem Nanodisks,” ACS Nano 11(5), 4419–4427 (2017).
[Crossref]

S. Sun, Z. Zhou, C. Zhang, Y. Gao, Z. Duan, S. Xiao, and Q. Song, “All-Dielectric Full-Color Printing with TiO2 Metasurfaces,” ACS Nano 11(5), 4445–4452 (2017).
[Crossref]

ACS Photonics (4)

V. Flauraud, M. Reyes, R. R. P. Domínguez, A. I. Kuznetsov, and J. Brugger, “Silicon Nanostructures for Bright Field Full Color Prints,” ACS Photonics 4(8), 1913–1919 (2017).
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T. Wood, M. Naffouti, J. Berthelot, T. David, J.-B. Claude, L. Métayer, A. Delobbe, L. Favre, A. Ronda, I. Berbezier, N. Bonod, and M. Abbarchi, “All-Dielectric Color Filters Using SiGe-Based Mie Resonator Arrays,” ACS Photonics 4(4), 873–883 (2017).
[Crossref]

V. Vashistha, G. Vaidya, R. S. Hegde, A. E. Serebryannikov, N. Bonod, and M. Krawczyk, “All-Dielectric Metasurfaces Based on Cross-Shaped Resonators for Color Pixels with Extended Gamut,” ACS Photonics 4(5), 1076–1082 (2017).
[Crossref]

L. Duempelmann, A. Luu-Dinh, B. Gallinet, and L. Novotny, “Four-Fold Color Filter Based on Plasmonic Phase Retarder,” ACS Photonics 3(2), 190–196 (2016).
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Appl. Opt. (1)

Appl. Phys. Lett. (1)

S.-C. Yang, K. Richter, and W.-J. Fischer, “Multicolor generation using silicon nanodisk absorber,” Appl. Phys. Lett. 106(8), 081112 (2015).
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Can. J. Ophthalmol. (1)

M. M. Palakkamanil and M. P. Fielden, “Effects of malicious ocular laser exposure in commercial airline pilots,” Can. J. Ophthalmol. 50(6), 429–432 (2015).
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K. Achouri, B. A. Khan, S. Gupta, G. Lavigne, M. A. Salem, and C. Caloz, “Synthesis of Electromagnetic Metasurfaces: Principles and Illustrations,” EPJ Appl. Metamat. 2(12), 12 (2015).
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IEEE J. Quantum Electron. (1)

W. Suh, Z. Wang, and S. Fan, “Temporal coupled-mode theory and the presence of non-orthogonal modes in lossless multimode cavities,” IEEE J. Quantum Electron. 40(10), 1511–1518 (2004).
[Crossref]

IEEE Photonics Technol. Lett. (1)

M. J. Uddin and R. Magnusson, “Efficient guided-mode-resonant tunable color filters,” IEEE Photonics Technol. Lett. 24(17), 1552–1554 (2012).
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IEEE Trans. Antennas Propag. (2)

K. Achouri, M. A. Salem, and C. Caloz, “General Metasurface Synthesis Based on Susceptibility Tensors,” IEEE Trans. Antennas Propag. 63(7), 2977–2991 (2015).
[Crossref]

E. F. Kuester, M. A. Mohamed, M. Piket-May, and C. L. Holloway, “Averaged Transition Conditions for Electromagnetic Fields at a Metafilm,” IEEE Trans. Antennas Propag. 51(10), 2641–2651 (2003).
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J. Opt. Soc. Am. A (2)

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Z. Ruan and S. Fan, “Temporal Coupled-Mode Theory for Fano Resonance in Light Scattering by a Single Obstacle,” J. Phys. Chem. C 114(16), 7324–7329 (2010).
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J. Phys. D: Appl. Phys. (1)

D. Arslan, K. E. Chong, A. E. Miroshnichenko, D.-Y. Choi, D. N. Neshev, T. Pertsch, Y. S. Kivshar, and I. Staude, “Angle-selective all-dielectric Huygens’ metasurfaces,” J. Phys. D: Appl. Phys. 50(43), 434002 (2017).
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Laser Photonics Rev. (1)

W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Highly reflective subtractive color filters capitalizing on a silicon metasurface integrated with nanostructured aluminum mirrors,” Laser Photonics Rev. 11(3), 1600285 (2017).
[Crossref]

Nano Lett. (1)

S. J. Tan, L. Zhang, D. Zhu, X. M. Goh, Y. M. Wang, K. Kumar, C.-W. Qiu, and J. K. W. Yang, “Plasmonic Color Palettes for Photorealistic Printing with Aluminum Nanostructures,” Nano Lett. 14(7), 4023–4029 (2014).
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Nanophotonics (1)

K. Achouri and C. Caloz, “Design, concepts, and applications of electromagnetic metasurfaces,” Nanophotonics 7(6), 1095–1116 (2018).
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Nanoscale (1)

G. Si, Y. Zhao, J. Lv, M. Lu, F. Wang, H. Liu, N. Xiang, T. J. Huang, A. J. Danner, J. Teng, and Y. J. Liu, “Reflective plasmonic color filters based on lithographically patterned silver nanorod arrays,” Nanoscale 5(14), 6243–6248 (2013).
[Crossref]

Nat. Nanotechnol. (1)

K. Kumar, H. Duan, R. S. Hegde, S. C. W. Koh, J. N. Wei, and J. K. W. Yang, “Printing colour at the optical diffraction limit,” Nat. Nanotechnol. 7(9), 557–561 (2012).
[Crossref]

Opt. Commun. (2)

B. Xu, D. Zhang, Y. Huang, B. Li, Q. Wang, B. Sheng, and S. Zhuang, “Versatile method for adjusting fabrication errors of guided-mode resonance filters,” Opt. Commun. 353(15), 10–16 (2015).
[Crossref]

S. He, Z. Shi, X. Li, X. Gao, Z. Wang, Q. Liu, G. Zhu, M. Zhang, H. Zhu, and Y. Wang, “Membrane guided-mode resonant color filters exhibiting adjustable spectral response,” Opt. Commun. 342(1), 129–135 (2015).
[Crossref]

Opt. Express (2)

Optik (1)

Z. Wang, Z. Lai, T. Yu, and Z. Hu, “Design and characterization of guided mode resonance filters with the improved structure for facile fabrication,” Optik 124(21), 4805–4807 (2013).
[Crossref]

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Proc. Natl. Acad. Sci. U. S. A. (2)

Z. Yu, A. Raman, and S. Fan, “Fundamental limit of nanophotonic light trapping in solar cells,” Proc. Natl. Acad. Sci. U. S. A. 107(41), 17491–17496 (2010).
[Crossref]

J. Olson, A. Manjavacas, L. Liu, W.-S. Chang, B. Foerster, N. S. King, M. W. Knight, P. Nordlander, N. J. Halas, and S. Link, “Vivid, full-color aluminum plasmonic pixels,” Proc. Natl. Acad. Sci. U. S. A. 111(40), 14348–14353 (2014).
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Sci. Rep. (3)

Y.-K. R. Wu, A. E. Hollowell, C. Zhang, and L. Jay Guo, “Angle-Insensitive Structural Colours based on Metallic Nanocavities and Coloured Pixels beyond the Diffraction limit,” Sci. Rep. 3(1), 1194 (2013).
[Crossref]

B. Zeng, Y. Gao, and F. J. Bartoli, “Ultrathin Nanostructured Metals for Highly Transmissive Plasmonic Subtractive Color Filters,” Sci. Rep. 3(1), 2840 (2013).
[Crossref]

C.-S. Park, V. R. Shrestha, W. Yue, S. Gao, S.-S. Lee, E.-S. Kim, and D.-Y. Choi, “Structural Color Filters Enabled by a Dielectric Metasurface Incorporating Hydrogenated Amorphous Silicon Nanodisks,” Sci. Rep. 7(1), 2556 (2017).
[Crossref]

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Figures (9)

Fig. 1.
Fig. 1. (a–c) Illustrations of band rejection color filters and calculated transmittance spectra for (a) plasmonic color filter, (b) Mie resonator, and (c) GMR-based color filter. The inset in (c) shows the transmittance versus incidence angle.
Fig. 2.
Fig. 2. Optical properties as functions of CMT parameters γ0 and γ, as predicted using Eq. (4): (a) minimum transmittance at a target wavelength and (b) FWHM frequency bandwidth. (c) Transmittance spectra of three selected cases, identified in (a) and (b).
Fig. 3.
Fig. 3. Properties of spectral bandwidth and minimum transmittance for multi-layer plasmonic structures. (a)–(b) Minimum transmittance as a function of γ0, γ and d for double- and triple-layer structures, respectively. The black meshed surface is a level surface of Tmin = 0.1. (c)–(d) The values of γ0 required to obtain Tmin = 0.1 are plotted as a function of $\gamma $ and d for double- and triple-layer cases, respectively. (e)–(f) FWHM of the spectral transmittance resulting from the (γ0, γ, d) combinations in (c)–(d) is plotted for double- and triple-layer cases, respectively. The white dashed line indicates points corresponding to γ0 = 0.012ω0.
Fig. 4.
Fig. 4. (a) Pareto frontiers with respect to the extinction and spectral bandwidth for each number of layers when γ0 is assumed to be equal to or greater than 0.012ω0. (b) The example of transmittance spectra of points marked with triangles in (a).
Fig. 5.
Fig. 5. (a) Radiation damping rate γ and (b) FWHM of multi-layer structure as a function of spacer thickness with 10 dB extinction. The number of layers in the structures is labeled as n-layer.
Fig. 6.
Fig. 6. Schematic of (a) single-layer and (b) multi-layer plasmonic color rejection filters incorporating metallic disks. The gray disks are made of silver and embedded in a homogeneous dielectric medium. The blue slab in (b) is a dielectric spacer between metallic layers and consists of the same material as the host medium. (c) Transmittance spectra for single- and multi-layer plasmonic structures. (d) Transmittance of triple-layer structure with varying incidence angles, obtained from FDTD simulations. The gray dash-dotted line represents the resonance wavelength at 0° incidence angle.
Fig. 7.
Fig. 7. Calculation of apparent colors for single- and multi-layer plasmonic structures. (a) CIELCh color space (b) projection on an L*-C* plane (c) plot of lightness and chroma. Blue circles indicate the boundaries of the visible gamut under the D65 standard illumination.
Fig. 8.
Fig. 8. (a) Schematic of alignment offset. (b) Change in resonance wavelength of multi-layer structure with offset Δx. Changes in FWHM and minimum transmittance with spacing distance for (c) double- and (d) triple-layer structures. Changes in FWHM and minimum transmittance with offset Δx for (e) double- and (f) triple-layer structures.
Fig. 9.
Fig. 9. Retrieved intrinsic loss rate of silver spheroid arrays. (a) Schematic of a spheroidal particle. (b) Retrieved γ0 values for variety of spheroids and background refractive indices.

Tables (1)

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Table 1. Coupled-mode theory parameters retrieved from FDTD simulations of single- and multi-layer plasmonic structures

Equations (11)

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d a d t = ( i ω 0 γ 0 γ ) a + κ t h + ,
h = S h + + d a ,
r CMT = h 1 h 1 + = i { r b ( ω 0 ω ) γ t b } + r b γ 0 i ( ω 0 ω ) + γ 0 + γ exp ( i ϕ r ) ,
t CMT = h 2 h 1 + = i γ 0 t b + t b ( ω ω 0 ) r b γ i ( ω 0 ω ) + γ 0 + γ exp ( i ϕ r ) ,
T min = ( γ 0 γ 0 + γ ) 2 = ( 1 1 + γ / γ 0 ) 2 ,
δ ω 2 = γ + γ 0 ,
T min δ ω ω 0 = 2 γ 0 ω 0 .
χ ee = 2 { i γ b γ + t b γ 0 i t b ( ω ω 0 ) + [ i ( γ + γ 0 ) + ( ω ω 0 ) ] exp ( i ϕ r ) } ε 0 η b ω [ t b ( ω ω 0 ) + γ 0 ( i t b r b ) ] ,
( Δ H y Δ H x ) = i ω ε 0 ( χ ee x x 0 0 χ ee y y ) ( E x , av E y , av ) ,
( Δ E y Δ E x ) = i ω μ 0 ( χ mm x x 0 0 χ mm y y ) ( H x , av H y , av ) ,
( E 1 + E 1 ) = 1 2 ( 4 + ω 2 ε 0 μ 0 χ e e x x χ m m y y ) ( 1 η b 1 η b ) ( 4 ω 2 ε 0 μ 0 χ e e x x χ m m y y 4 i ω μ 0 χ m m y y 4 i ω ε 0 χ e e x x 4 ω 2 ε 0 μ 0 χ e e x x χ m m y y ) × ( 1 1 1 / η b 1 / η b ) × ( E 2 + E 2 ) = ( a 11 a 12 a 21 a 22 ) ( E 2 + E 2 ) ,