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Numerical Study of Duffing Nonlinearity in the Quantum Dot Embedded Nanomechanical Resonator

Author

Listed:
  • Yue Wang
  • Ghulam Bary
  • Riaz Ahmad
  • Dameng Yin
  • Shiwei Xie
  • Qing Lu
  • Ilyas Khan
  • Nawa Alshammari
  • Nawaf N. Hamadneh
  • Mulugeta Andualemb

Abstract

Geometry, electrostatics, and single-electron tunneling contribute to the nonlinearity in the quantum dot embedded nanomechanical resonator, while “Duffing term” is a kind of mathematics describing the third-order nonlinearity of the system as a whole. We study theoretically the influence of a variation of a mathematical parameter Fuffing term on the actual physical effect. The position probability distribution, the average current, and the displacement fluctuation spectrum with the different Duffing parameter and electromechanical coupling are obtained through numerically calculating the Fokker Planck equation. The mechanical bistability has been described by these quantities under different electromechanical coupling and Duffing parameters. We conclude that the nonlinearities of the nanotube resonator contribute to the mechanical bistability, which induces the asymmetry of the position probability distribution, compresses the current, and softens or stiffens the mechanical resonance frequency as the same as the electromechanical coupling to use it in mechanical engineering.

Suggested Citation

  • Yue Wang & Ghulam Bary & Riaz Ahmad & Dameng Yin & Shiwei Xie & Qing Lu & Ilyas Khan & Nawa Alshammari & Nawaf N. Hamadneh & Mulugeta Andualemb, 2021. "Numerical Study of Duffing Nonlinearity in the Quantum Dot Embedded Nanomechanical Resonator," Mathematical Problems in Engineering, Hindawi, vol. 2021, pages 1-8, November.
    • Handle: RePEc:hin:jnlmpe:2717507
    DOI: 10.1155/2021/2717507
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