Nonlinear Mode Coupling and One-to-One Internal Resonances in a Monolayer WS<sub>2</sub> Nanoresonator

Nathamgari, S. Shiva P.; Dong, Siyan; Medina, Lior; Moldovan, N.; Rosenmann, Daniel; Divan, Ralu; López, Daniel; Lauhon, Lincoln J.; Espinosa, Horacio D.

doi:10.1021/acs.nanolett.9b01442

Cited by 26 publications

(17 citation statements)

References 50 publications

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“…This is the case of the WS 2 -based nanoresonator operating in the strongly nonlinear regime to obtain force sensors that achieve high sensitivities at room temperature. 36 In conclusion, we have reported the most recent advances on the coupling between the field of plasmonics and 2D materials published in Nano Letters in the past decade. As well, we have discussed how we can exploit this coupling to achieve better performance in some specific areas, above all photodetection.…”

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confidence: 88%

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Chasing Plasmons in Flatland

Celano

Maccaferri

2019

Nano Lett.

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Two-dimensional layered crystals, including graphene and transition metal dichalcogenides, represent an interesting avenue for studying light-matter interactions at the nanoscale in confined geometries. They offer several attractive properties, such as large exciton binding energies, strong excitonic resonances, and tunable bandgaps from the visible to the near-IR along with large spin–orbit coupling, direct band gap transitions, and valley-selective responses.

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confidence: 88%

“…Finally, it is worth noticing that 2D materials can also be used as detectors of weak incoherent forces. This is the case of the WS 2 -based nanoresonator operating in the strongly nonlinear regime to obtain force sensors that achieve high sensitivities at room temperature …”

Section: Interfacing Interaction and Couplingmentioning

confidence: 99%

Chasing Plasmons in Flatland

Celano

Maccaferri

2019

Nano Lett.

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“…Mode coupling effects can be studied by driving both modes near their resonance frequency simultaneously, or by exciting one mode and study its ringdown 34,102 while monitoring the effects of interactions with other modes. However, most commonly these coupling effects are studied 27,35,99,159,160 by driving one mode j directly or parametrically with an external sinusoidal force F ext,j = F ext,j0 sin(ωt) while tuning its resonance frequency until interactions with other modes become noticeable. These interactions can be understood as follows: at sufficiently high driving force and when driving the mode close to its resonance frequency, the motion q j (t) = q j,0 sin ω j t reaches large amplitudes, and as a consequence, mode i experiences a mode-coupling force, e.g.…”

Section: Mode-coupling and Internal Resonancementioning

confidence: 99%

Dynamics of 2D Material Membranes

Steeneken,

Dolleman,

Davidovikj

et al. 2021

Preprint

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“…The exchange of energy between the modes is discussed, showing the sensitivity of the involved ranges to the system parameters. Nathamgari et al [24] report on a force sensor utilizing the nonlinear mode coupling in a monolayer tungsten disulfide nanoresonator, showing multiple pairs of 1:1 internal resonance.…”

Section: Introductionmentioning

confidence: 99%

Internal resonance in the higher-order modes of a MEMS beam: experiments and global analysis

et al. 2021

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This work investigates the dynamics of a microbeam-based MEMS device in the neighborhood of a 2:1 internal resonance between the third and fifth vibration modes. The saturation of the third mode and the concurrent activation of the fifth are observed. The main features are analyzed extensively, both experimentally and theoretically. We experimentally observe that the complexity induced by the 2:1 internal resonance covers a wide driving frequency range. Constantly comparing with the experimental data, the response is examined from a global perspective, by analyzing the attractor-basins scenario. This analysis is conducted both in the thirdmode and fifth-mode planes. We show several metamorphoses occurring as proceeding from the principal resonance to the 2:1 internal resonance, up to the final disappearance of the resonant and non-resonant attractors. The shape and wideness of all the basins are examined. Despite they are progressively eroded, an appreciable region is detected where the compact cores of the attractors involved in the 2:1 internal resonance remain substantial, which allows effectively operating them under realistic conditions. The dynamical integrity of each resonant branch is discussed, especially as approaching the bifurcation points where the system becomes more vulnerable to the dynamic pull-in instability.

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Nonlinear Mode Coupling and One-to-One Internal Resonances in a Monolayer WS₂ Nanoresonator

Cited by 26 publications

References 50 publications

Chasing Plasmons in Flatland

Chasing Plasmons in Flatland

Dynamics of 2D Material Membranes

Internal resonance in the higher-order modes of a MEMS beam: experiments and global analysis

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Nonlinear Mode Coupling and One-to-One Internal Resonances in a Monolayer WS2 Nanoresonator

Cited by 26 publications

References 50 publications

Chasing Plasmons in Flatland

Chasing Plasmons in Flatland

Dynamics of 2D Material Membranes

Internal resonance in the higher-order modes of a MEMS beam: experiments and global analysis

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Product

Resources

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Nonlinear Mode Coupling and One-to-One Internal Resonances in a Monolayer WS₂ Nanoresonator