Hyperbolic metamaterial structures based on graphene for THz super-resolution imaging applications: publisher’s note

Shixuan Hao; Jicheng Wang; Ivan Fanayev; Sergei Khakhomov; Jingwen Li; Jingwen Li; Jingwen Li

doi:10.1364/OME.489756

Abstract

This publisher’s note contains corrections to a production-related error to Opt. Mater. Express 13, 247 (2023) [CrossRef] .

In [1], an incorrect version of Fig. 4 was originally published. The article was corrected online on 10 March 2023.

Fig. 4. The isofrequency dispersion contours of the graphene-dielectric structure when chemical potentials are 0.4 eV, 0.6 eV, 0.8 eV and 1.0 eV for (a) $f$=3 THz, (b) $f$=4 THz and (c) $f$=5 THz under the TM modes.

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Reference

1. S. Hao, J. Wang, I. Fanayev, S. Khakhomov, and J. Li, “Hyperbolic metamaterial structures based on graphene for THz super-resolution imaging applications,” Opt. Mater. Express 13(1), 247–262 (2023). [CrossRef]

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Figures (1)

Fig. 4.

Fig. 4. The isofrequency dispersion contours of the graphene-dielectric structure when chemical potentials are 0.4 eV, 0.6 eV, 0.8 eV and 1.0 eV for (a)

$f$

=3 THz, (b)

$f$

=4 THz and (c)

$f$

=5 THz under the TM modes.

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Abstract

Reference

Cited By

Figures (1)

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