Port-Hamiltonian modelling of nonlocal longitudinal vibrations in a viscoelastic nanorod

Hanif Heidari; H. Zwart

doi:10.1080/13873954.2019.1659374

Port-Hamiltonian modelling of nonlocal longitudinal vibrations in a viscoelastic nanorod

Hanif Heidari (Corresponding author), H. Zwart

Dynamics and Control

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Abstract

Analysis of nonlocal axial vibration in a nanorod is a crucial subject in science and engineering because of its wide applications in nanoelectromechanical systems. The aim of this paper is to show how these vibrations can be modelled within the framework of port-Hamiltonian systems. It turns out that two port-Hamiltonian descriptions in physical variables are possible. The first one is in descriptor form, whereas the second one has a non-local Hamiltonian density. In addition, it is shown that under appropriate boundary conditions these models possess a unique solution which is non-increasing in the corresponding ‘energy’, i.e., the associated infinitesimal generator generates a contraction semigroup on a Hilbert space, whose norm is directly linked to the Hamiltonian.

Original language	English
Pages (from-to)	447-462
Number of pages	16
Journal	Mathematical and Computer Modelling of Dynamical Systems
Volume	25
Issue number	5
DOIs	https://doi.org/10.1080/13873954.2019.1659374
Publication status	Published - 3 Sept 2019

Keywords

Descriptor port-Hamiltonian
nonlocal vibration
viscoelastic

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10.1080/13873954.2019.1659374

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title = "Port-Hamiltonian modelling of nonlocal longitudinal vibrations in a viscoelastic nanorod",

abstract = "Analysis of nonlocal axial vibration in a nanorod is a crucial subject in science and engineering because of its wide applications in nanoelectromechanical systems. The aim of this paper is to show how these vibrations can be modelled within the framework of port-Hamiltonian systems. It turns out that two port-Hamiltonian descriptions in physical variables are possible. The first one is in descriptor form, whereas the second one has a non-local Hamiltonian density. In addition, it is shown that under appropriate boundary conditions these models possess a unique solution which is non-increasing in the corresponding {\textquoteleft}energy{\textquoteright}, i.e., the associated infinitesimal generator generates a contraction semigroup on a Hilbert space, whose norm is directly linked to the Hamiltonian.",

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AB - Analysis of nonlocal axial vibration in a nanorod is a crucial subject in science and engineering because of its wide applications in nanoelectromechanical systems. The aim of this paper is to show how these vibrations can be modelled within the framework of port-Hamiltonian systems. It turns out that two port-Hamiltonian descriptions in physical variables are possible. The first one is in descriptor form, whereas the second one has a non-local Hamiltonian density. In addition, it is shown that under appropriate boundary conditions these models possess a unique solution which is non-increasing in the corresponding ‘energy’, i.e., the associated infinitesimal generator generates a contraction semigroup on a Hilbert space, whose norm is directly linked to the Hamiltonian.

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Port-Hamiltonian modelling of nonlocal longitudinal vibrations in a viscoelastic nanorod

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