Ultrahigh-Q Fano Resonances in Terahertz Metasurfaces: Strong Influence of Metallic Conductivity at Extremely Low Asymmetry
Fano resonances in metasurfaces are important due to their low loss subradiant behavior that allows excitation of high-quality (Q) factor resonances extending from the microwave to the optical regime. High-Q Fano resonances have recently enabled applications in the areas of sensing, modulation, filt...
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sg-ntu-dr.10356-837792023-02-28T19:58:42Z Ultrahigh-Q Fano Resonances in Terahertz Metasurfaces: Strong Influence of Metallic Conductivity at Extremely Low Asymmetry Srivastava, Yogesh Kumar Al-Naib, Ibraheem Zhang, Weili Singh, Ranjan Manjappa, Manukumara Cong, Longqing Cao, Wei School of Physical and Mathematical Sciences Fano Resonance Phenomena Conductivity Fano resonances in metasurfaces are important due to their low loss subradiant behavior that allows excitation of high-quality (Q) factor resonances extending from the microwave to the optical regime. High-Q Fano resonances have recently enabled applications in the areas of sensing, modulation, filtering, and efficient cavities for lasing spasers. Highly conducting metals are the most commonly used materials for fabricating the metasurfaces, especially at the low-frequency terahertz region where the DC, Drude, and perfect electric conductivity show similar resonant behavior of the subwavelength meta-atoms. Here, it is experimentally and theoretically demontrated that the Q factor of a low asymmetry Fano resonance is extremely sensitive to the conducting properties of the metal at terahertz frequencies. Large differences in the Q factor and figure of merit of the Fano resonance is observed for perfect electric conductors, Drude metal, and a DC-conducting metal, which is in sharp contrast to the behavior of the inductive–capacitive resonance of meta-atoms at terahertz frequency. Identification of such a low asymmetry regime in Fano resonances is the key to engineer the radiative and nonradiative losses in plasmonic and metamaterial-based devices that have potential applications in the microwave, terahertz, infrared, and the optical regimes. Accepted version 2017-07-04T05:41:58Z 2019-12-06T15:31:54Z 2017-07-04T05:41:58Z 2019-12-06T15:31:54Z 2016 Journal Article Srivastava, Y. K., Manjappa, M., Cong, L., Cao, W., Al-Naib, I., Zhang, W., et al. (2016). Ultrahigh-Q Fano Resonances in Terahertz Metasurfaces: Strong Influence of Metallic Conductivity at Extremely Low Asymmetry. Advanced Optical Materials, 4(3), 457-463. 2195-1071 https://hdl.handle.net/10356/83779 http://hdl.handle.net/10220/42794 10.1002/adom.201500504 en Advanced Optical Materials 10.21979/N9/WTJGUL © 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. This is the author created version of a work that has been peer reviewed and accepted for publication by Advanced Optical Materials, WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. It incorporates referee’s comments but changes resulting from the publishing process, such as copyediting, structural formatting, may not be reflected in this document. The published version is available at: [http://dx.doi.org/10.1002/adom.201500504]. 19 p. application/pdf |
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Fano Resonance Phenomena Conductivity Srivastava, Yogesh Kumar Al-Naib, Ibraheem Zhang, Weili Singh, Ranjan Manjappa, Manukumara Cong, Longqing Cao, Wei Ultrahigh-Q Fano Resonances in Terahertz Metasurfaces: Strong Influence of Metallic Conductivity at Extremely Low Asymmetry |
| description |
Fano resonances in metasurfaces are important due to their low loss subradiant behavior that allows excitation of high-quality (Q) factor resonances extending from the microwave to the optical regime. High-Q Fano resonances have recently enabled applications in the areas of sensing, modulation, filtering, and efficient cavities for lasing spasers. Highly conducting metals are the most commonly used materials for fabricating the metasurfaces, especially at the low-frequency terahertz region where the DC, Drude, and perfect electric conductivity show similar resonant behavior of the subwavelength meta-atoms. Here, it is experimentally and theoretically demontrated that the Q factor of a low asymmetry Fano resonance is extremely sensitive to the conducting properties of the metal at terahertz frequencies. Large differences in the Q factor and figure of merit of the Fano resonance is observed for perfect electric conductors, Drude metal, and a DC-conducting metal, which is in sharp contrast to the behavior of the inductive–capacitive resonance of meta-atoms at terahertz frequency. Identification of such a low asymmetry regime in Fano resonances is the key to engineer the radiative and nonradiative losses in plasmonic and metamaterial-based devices that have potential applications in the microwave, terahertz, infrared, and the optical regimes. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Srivastava, Yogesh Kumar Al-Naib, Ibraheem Zhang, Weili Singh, Ranjan Manjappa, Manukumara Cong, Longqing Cao, Wei |
| format |
Article |
| author |
Srivastava, Yogesh Kumar Al-Naib, Ibraheem Zhang, Weili Singh, Ranjan Manjappa, Manukumara Cong, Longqing Cao, Wei |
| author_sort |
Srivastava, Yogesh Kumar |
| title |
Ultrahigh-Q Fano Resonances in Terahertz Metasurfaces: Strong Influence of Metallic Conductivity at Extremely Low Asymmetry |
| title_short |
Ultrahigh-Q Fano Resonances in Terahertz Metasurfaces: Strong Influence of Metallic Conductivity at Extremely Low Asymmetry |
| title_full |
Ultrahigh-Q Fano Resonances in Terahertz Metasurfaces: Strong Influence of Metallic Conductivity at Extremely Low Asymmetry |
| title_fullStr |
Ultrahigh-Q Fano Resonances in Terahertz Metasurfaces: Strong Influence of Metallic Conductivity at Extremely Low Asymmetry |
| title_full_unstemmed |
Ultrahigh-Q Fano Resonances in Terahertz Metasurfaces: Strong Influence of Metallic Conductivity at Extremely Low Asymmetry |
| title_sort |
ultrahigh-q fano resonances in terahertz metasurfaces: strong influence of metallic conductivity at extremely low asymmetry |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/83779 http://hdl.handle.net/10220/42794 |
| _version_ |
1759856024842403840 |