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Polarization Controlled High Efficiency Color Filters Using Si Nanoantennas

  • Vishal VashisthaEmail author
  • Indu Kumari
  • A. E. Serebryannikov
  • Maciej Krwaczyk
Conference paper
Part of the Springer Proceedings in Physics book series (SPPHY, volume 215)

Abstract

Metasurface is a new concept to manipulate the amplitude and phase of the incoming wave locally from the surface. Metasurface is composed of 2D elements so called nanoantennas, which show practical solution for manipulation of light unlike 3D metamaterials devices which are difficult to fabricate at nano scale level. Many of the devices are already designed using the concept of metasurfaces which include meta-lens, vortex plates, holography, and color filters. Color filters designed using metasurfaces attract attention of researchers because of their significant advantages over pigment based printing technology such as high contrast, low power, and ultra-high resolution. Recently, a new trend is emerging to use all dielectric based metasurface filters, which are much more efficient compare to plasmonics color filters. These filters can be easily integrated with existing electronic circuitry, since these filters are designed using Si material. In this work, we propose polarization dependent widely tunable all dielectric color filters, whose basic constitute element is Si based cross shaped nanoantennas. These filters are designed using cross shaped nanoantennas with different arm lengths. Each arm of nanoantenna responds for different state of polarization of incoming light, which results in different color spectra. We illustrate a wide tunability of these filters in visible spectrum with numerical simulation.

Keywords

Color filters Polarization Nanoantennas All dielectric Metasurfaces 

Notes

Acknowledgements

This work was supported by National Science Centre Poland for OPUS grant No. 2015/17/B/ST3/00118 (Metasel) and partially by European Union Horizon2020 research and innovation program under the Marie Sklodowska-Curie grant No. 644348 (MagIC).

References

  1. 1.
    D. Kim, A.L. Giermann, C.V. Thompson, Solid-state dewetting of patterned thin films. Appl. Phys. Lett. 95(25), 251903 (2009)ADSCrossRefGoogle Scholar
  2. 2.
    J.S. Clausen, E. Højlund-Nielsen, A.B. Christiansen, S. Yazdi, H. Grajower, U. Taha, A.Kristensen Levy, N.A. Mortensen, Plasmonic metasurfaces for coloration of plastic consumer products. Nano Lett. 14(8), 4499–4504 (2014)ADSCrossRefGoogle Scholar
  3. 3.
    I. Freestone, N. Meeks, M. Sax, C. Higgitt, The lycurgus cupa roman nanotechnology. Gold Bull. 40(4), 270–277 (2007)CrossRefGoogle Scholar
  4. 4.
    M. Srinivasarao, Nano-optics in the biological world: beetles, butter-flies, birds, and moths. Chem. Rev. 99(7), 1935–1962 (1999)CrossRefGoogle Scholar
  5. 5.
    V. Vashistha, G. Vaidya, R.S. Hegde, A.E. Serebryannikov, N. Bonod, M. Krawczyket, All-dielectric metasurfaces based on cross-shaped resonators for color pixels with extended gamut. ACS Photonics 4(5), 1076–1082 (2017)CrossRefGoogle Scholar
  6. 6.
    V. Vashistha, G. Vaidya, P. Gruszecki, A. E Serebryannikov, M. Krawczyket et al., Polarization tunable all-dielectric color filters based on cross-shaped Si nanoantennas. Sci. Rep. 7(1), 8092 (2017)Google Scholar
  7. 7.
    S.J. Tan, L. Zhang, D. Zhu, X.M. Goh, Y.M. Wang, K. Kumar, C.-W. Qiu, J.K. Yang, Plasmonic color palettes for photorealistic printing with aluminum nanostructures. Nano Lett. 14(7), 4023–4029 (2014)ADSCrossRefGoogle Scholar
  8. 8.
    T.D. James, P. Mulvaney, A. Roberts, The plasmonic pixel: large area, wide gamut color reproduction using aluminum nanostructures. Nano Lett. 16(6), 3817–3823 (2016)ADSCrossRefGoogle Scholar

Copyright information

© Springer Nature Switzerland AG 2019

Authors and Affiliations

  • Vishal Vashistha
    • 1
    Email author
  • Indu Kumari
    • 2
  • A. E. Serebryannikov
    • 1
  • Maciej Krwaczyk
    • 1
  1. 1.Department of PhysicsAdam Mickiewicz University in PoznańPoznańPoland
  2. 2.Indian Institute of TechnologyMandiIndia

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