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Erratum to: Darkfield colors from multi-periodic arrays of gap plasmon resonators

This erratum corrects the original online version which can be found here: https://doi.org/10.1515/nanoph-2019-0414
  • Ray Jia Hong Ng ORCID logo , Ravikumar Venkat Krishnan , Hao Wang ORCID logo and Joel K.W. Yang EMAIL logo
Published/Copyright: April 20, 2020
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Nanophotonics
From the journal Nanophotonics Volume 9 Issue 6

Erratum to: Ray Jia Hong Ng, Ravikumar Venkat Krishnan, Hao Wang, and Joel K.W. Yang. 2020. Darkfield colors from multi-periodic arrays of gap plasmon resonators. Nanophotonics. Volume 9, Issue 2, pages 533–545. (DOI:https://doi.org/10.1515/nanoph-2019-0414):

The images for Figure 5C–F were incorrect. The corrected images are included below:

Figure 5: Multilevel optical microtag.(A) Section of EBL layout of disks used for patterning. (B) SEM image of a small region of fabricated tag. (C) Brightfield visible, (D) infrared, (E) x-polarized darkfield visible, and (F) y-polarized darkfield visible images of fabricated four-level security tag.
Figure 5:

Multilevel optical microtag.

(A) Section of EBL layout of disks used for patterning. (B) SEM image of a small region of fabricated tag. (C) Brightfield visible, (D) infrared, (E) x-polarized darkfield visible, and (F) y-polarized darkfield visible images of fabricated four-level security tag.

Published Online: 2020-04-20

©2020 Joel K.W. Yang et al., published by De Gruyter, Berlin/Boston

This work is licensed under the Creative Commons Attribution 4.0 International License.

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https://doi.org/10.1515/nanoph-2020-0188
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Articles in the same Issue

  1. Reviews
  2. Multiparticle quantum plasmonics
  3. Physics and applications of quantum dot lasers for silicon photonics
  4. Integrated lithium niobate photonics
  5. Subwavelength structured silicon waveguides and photonic devices
  6. Nonlinear optical microscopies (NOMs) and plasmon-enhanced NOMs for biology and 2D materials
  7. Enhancement of upconversion luminescence using photonic nanostructures
  8. 3D Nanophotonic device fabrication using discrete components
  9. Research Articles
  10. A flexible platform for controlled optical and electrical effects in tailored plasmonic break junctions
  11. Effects of roughness and resonant-mode engineering in all-dielectric metasurfaces
  12. Colloidal quantum dots decorated micro-ring resonators for efficient integrated waveguides excitation
  13. Engineered telecom emission and controlled positioning of Er3+ enabled by SiC nanophotonic structures
  14. Diffraction engineering for silicon waveguide grating antenna by harnessing bound state in the continuum
  15. On-chip scalable mode-selective converter based on asymmetrical micro-racetrack resonators
  16. High-Q dark hyperbolic phonon-polaritons in hexagonal boron nitride nanostructures
  17. Multilevel phase supercritical lens fabricated by synergistic optical lithography
  18. Continuously-tunable Cherenkov-radiation-based detectors via plasmon index control
  19. Cherenkov radiation generated in hexagonal boron nitride using extremely low-energy electrons
  20. Geometric phase for multidimensional manipulation of photonics spin Hall effect and helicity-dependent imaging
  21. Stable blue-emissive aluminum acetylacetonate nanocrystals with high quantum yield of over 80% and embedded in polymer matrix for remote UV-pumped white light–emitting diodes
  22. Pumping-controlled multicolor modulation of upconversion emission for dual-mode dynamic anti-counterfeiting
  23. Broadband graphene-on-silicon modulator with orthogonal hybrid plasmonic waveguides
  24. Non-noble metal based broadband photothermal absorbers for cost effective interfacial solar thermal conversion
  25. Metal-insulator-metal nanoresonators – strongly confined modes for high surface sensitivity
  26. Erratum
  27. Erratum to: Darkfield colors from multi-periodic arrays of gap plasmon resonators
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