High Q-factor resonance holds great promise for bio-chemical sensing and enhanced light–matter interaction. However, terahertz (THz) magnetic resonances usually demonstrate low Q-factors, resulting in huge energy radiation loss particularly in high frequency bands. Here, we show that high Q-factor magnetic dipole resonance at THz frequencies can be achieved by exploiting the coherent Fano interactions with strong field enhancements in an array composed of single metallic split-ring resonators, working at Wood–Rayleigh anomalies. It can give rise to ultrahigh Q-factor beyond 104 in the THz regime. Experimentally, the measured Q-factor of dominant magnetic dipole resonance can achieve no less than a level of ∼261 by Lorentzian fitting to the experimental data. In addition, a high Q-factor of the fundamental-order magnetic dipole resonance is demonstrated beyond 30. High-Q magnetic dipole resonance is closely associated with ultralow-damping and negative permeability in the THz band. The measurements of magnetic dipole resonances are in good agreement with the theoretical analyses. Our scheme suggests a feasible route to suppress radiative loss for enhanced THz field-matter interaction.
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14 November 2022
Research Article|
November 15 2022
Terahertz high-Q magnetic dipole resonance induced by coherent Fano interactions
Fei Yan
;
Fei Yan
a)
(Data curation, Investigation, Writing – original draft)
1
National Key Laboratory of Science and Technology on Tunable Laser, Harbin Institute of Technology
, Harbin 150081, China
2
School of Electronic and Electrical Engineering, Nanyang Technological University
, Singapore 639798, Singapore
a)Authors to whom correspondence should be addressed: 18b921018@stu.hit.edu.cn; lili.phys@hit.edu.cn; luoyu@ntu.edu.sg; and qjwang@ntu.edu.sg
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Qi Li;
Qi Li
(Funding acquisition, Project administration, Resources, Supervision)
1
National Key Laboratory of Science and Technology on Tunable Laser, Harbin Institute of Technology
, Harbin 150081, China
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Hao Hu
;
Hao Hu
(Conceptualization, Formal analysis, Methodology)
2
School of Electronic and Electrical Engineering, Nanyang Technological University
, Singapore 639798, Singapore
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Ze Wen Wang;
Ze Wen Wang
(Data curation, Methodology, Validation)
1
National Key Laboratory of Science and Technology on Tunable Laser, Harbin Institute of Technology
, Harbin 150081, China
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Hao Tian
;
Hao Tian
(Formal analysis, Methodology, Resources)
3
School of Physics, Harbin Institute of Technology
, Harbin 150080, China
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Li Li
;
Li Li
a)
(Funding acquisition, Investigation, Supervision, Writing – review & editing)
3
School of Physics, Harbin Institute of Technology
, Harbin 150080, China
a)Authors to whom correspondence should be addressed: 18b921018@stu.hit.edu.cn; lili.phys@hit.edu.cn; luoyu@ntu.edu.sg; and qjwang@ntu.edu.sg
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Yu Luo
;
Yu Luo
a)
(Formal analysis, Funding acquisition, Software, Writing – review & editing)
2
School of Electronic and Electrical Engineering, Nanyang Technological University
, Singapore 639798, Singapore
4
UMI 3288 CINTRA, CNRS/NTU/THALES, Nanyang Technological University
, 50 Nanyang Drive, Singapore 637553, Singapore
a)Authors to whom correspondence should be addressed: 18b921018@stu.hit.edu.cn; lili.phys@hit.edu.cn; luoyu@ntu.edu.sg; and qjwang@ntu.edu.sg
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Qi Jie Wang
Qi Jie Wang
a)
(Funding acquisition, Investigation, Software, Supervision, Writing – review & editing)
2
School of Electronic and Electrical Engineering, Nanyang Technological University
, Singapore 639798, Singapore
5
Centre for Disruptive Photonic Technologies, Division of Physics and Applied Physics School of Physical and Mathematical Sciences, Nanyang Technological University
, Singapore 637371, Singapore
a)Authors to whom correspondence should be addressed: 18b921018@stu.hit.edu.cn; lili.phys@hit.edu.cn; luoyu@ntu.edu.sg; and qjwang@ntu.edu.sg
Search for other works by this author on:
a)Authors to whom correspondence should be addressed: 18b921018@stu.hit.edu.cn; lili.phys@hit.edu.cn; luoyu@ntu.edu.sg; and qjwang@ntu.edu.sg
Appl. Phys. Lett. 121, 201704 (2022)
Article history
Received:
July 22 2022
Accepted:
November 02 2022
Citation
Fei Yan, Qi Li, Hao Hu, Ze Wen Wang, Hao Tian, Li Li, Yu Luo, Qi Jie Wang; Terahertz high-Q magnetic dipole resonance induced by coherent Fano interactions. Appl. Phys. Lett. 14 November 2022; 121 (20): 201704. https://doi.org/10.1063/5.0112993
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