Please use this identifier to cite or link to this item: https://doi.org/10.1002/admt.201800014
Title: Graphene Tunable Plasmon-Phonon Coupling in Mid-IR Complementary Metamaterial
Authors: Chen, Nan 
Hasan, Dihan 
Ho, Chong Pei 
Lee, Chengkuo 
Keywords: Science & Technology
Technology
Materials Science, Multidisciplinary
Materials Science
Fano resonance
graphene tuning
mid-IR plasmonics
mode splitting
plasmon-phonon coupling
FANO-LIKE INTERFERENCE
SPLIT-RING RESONATORS
INFRARED-SPECTROSCOPY
REFRACTIVE-INDEX
PERFECT ABSORBER
RESONANCE
NANOSTRUCTURES
TRANSPARENCY
METASURFACES
NANOANTENNA
Issue Date: 2018
Publisher: WILEY
Citation: Chen, Nan, Hasan, Dihan, Ho, Chong Pei, Lee, Chengkuo (2018). Graphene Tunable Plasmon-Phonon Coupling in Mid-IR Complementary Metamaterial. ADVANCED MATERIALS TECHNOLOGIES 3 (5). ScholarBank@NUS Repository. https://doi.org/10.1002/admt.201800014
Abstract: Metamaterial-based plasmonics has become an overwhelming research field due to its enormous potential and versatility in molecular sensing, imaging, and nonlinear optics. This work presents a new tunable plasmonic platform on which the metamaterial resonance is coupled with infrared vibrational bond in the presence of graphene electrostatic modulation. The maximum electric field enhancement factor induced by mode coupling is 14 and the quality factor (Q-factor) of phonon mode is increased approximately by fourfold. The graphene electrostatic modulation based on the parallel-plate capacitor configuration enables a wavelength shift of 1.57 nm V , resonance intensity and Q-factor modulation depth of 103.34% and 70%, respectively. Metamaterial based plasmon polariton perfectly matched with phonon mode yields the highest Q-factor of 40. However, this perfectly matched resonance appears to be prohibitively “switched off” in the electrostatic tuning, which is reported for the first time. Mode splitting investigation reveals the largest coupling strength of 8.1 meV (1.96 THz) that results in the insensitivity to the perturbation caused by graphene modulation. Finally, an averaged sensitivity of 1.677 µm RIU and a tunable figure of merit are reported, depicting the versatility of this platform for multiplexed sensing applications in various conditions. −1 −1
Source Title: ADVANCED MATERIALS TECHNOLOGIES
URI: https://scholarbank.nus.edu.sg/handle/10635/188841
ISSN: 2365709X
2365709X
DOI: 10.1002/admt.201800014
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