Molecular dynamics simulation study on graphene-nanoribbon-resonators tuned by adjusting axial strain |
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| Authors: | Oh Kuen Kwon Jun Ha Lee Jungchul Park Ki-Sub Kim Jeong Won Kang |
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| Affiliation: | 1. Department of Electronic Engineering, Semyung University, Jecheon 390-711, Republic of Korea;2. Department of Computer System Engineering, Sangmyung University, Chonan 330-720, Republic of Korea;3. Department of Safety Engineering, Korea National University of Transportation, Chungju 380-702, Republic of Korea;4. Department of Chemical and Biological Engineering, Korea National University of Transportation, Chungju 380-702, Republic of Korea;5. Department of Computer Engineering, Korea National University of Transportation, 50 Deahak-ro, Chungju 380-702, Republic of Korea |
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| Abstract: | A tunable graphene-nanoribbon (GNR)-resonator was investigated via classical molecular dynamics simulations. Resonance frequencies increased with increasing externally applied gate-force and axial-strain, and could be tuned above several hundred GHz. Tunable resonance frequencies achieved from the gate force were higher than those achieved from the axial-strain. The operating frequencies of GNR-resonators without axial-strain or with small axial-strains were most widely tuned by the gate, and almost linearly increased with increasing mean deflection. As the axial strain increased, the tunable ranges of the GNR-resonators were exponentially decreased, although the operating frequencies increased. GNR-resonators without axial-strain could be applied to wide-range-tuners, whereas GNR-resonators with high axial-strain could be applied to high-frequency-fine-tuners. |
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