Dynamical Casimir actuation under non-equilibrium conditions: The influence of optical properties from different interacting bodies

F. Tajik; M. Sedighi; G. Palasantzas

doi:10.1016/j.physleta.2022.128220

Dynamical Casimir actuation under non-equilibrium conditions: The influence of optical properties from different interacting bodies

F. Tajik, M. Sedighi, G. Palasantzas^*

^*Corresponding author for this work

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Abstract

In this work we investigated the dynamical actuation of microsystems with non-identical material components in the presence of non-equilibrium Casimir forces between Au and highly doped SiC that show significant difference in conductivity. For autonomous systems, the bifurcation and phase space analysis revealed that when the less conductive material operates at higher temperature, then at short separations the non-equilibrium force causes instability. Furthermore, for periodically driven systems the Melnikov function and Poincare portrait analysis showed that the devices are more robust against chaotic motion when the less conductive component is at low temperature at short separations. At larger separations chaotic behavior is more likely to occur for systems with the more conductive component at higher temperature.

Original language	English
Article number	128220
Number of pages	11
Journal	Physics Letters, Section A: General, Atomic and Solid State Physics
Volume	443
DOIs	https://doi.org/10.1016/j.physleta.2022.128220
Publication status	Published - 15-Aug-2022

Keywords

Chaotic motion
Non-equilibrium Casimir force
Optical properties
Stable operation

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title = "Dynamical Casimir actuation under non-equilibrium conditions: The influence of optical properties from different interacting bodies",

abstract = "In this work we investigated the dynamical actuation of microsystems with non-identical material components in the presence of non-equilibrium Casimir forces between Au and highly doped SiC that show significant difference in conductivity. For autonomous systems, the bifurcation and phase space analysis revealed that when the less conductive material operates at higher temperature, then at short separations the non-equilibrium force causes instability. Furthermore, for periodically driven systems the Melnikov function and Poincare portrait analysis showed that the devices are more robust against chaotic motion when the less conductive component is at low temperature at short separations. At larger separations chaotic behavior is more likely to occur for systems with the more conductive component at higher temperature.",

keywords = "Chaotic motion, Non-equilibrium Casimir force, Optical properties, Stable operation",

author = "F. Tajik and M. Sedighi and G. Palasantzas",

note = "Funding Information: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: George Palasantzas reports financial support was provided by University of Groningen Zernike Institute for Advanced Materials. Fatemeh Tajik reports financial support was provided by Alzahra University . Mehdi Sedighi reports financial support was provided by Hanze University of Applied Sciences . Funding Information: G. P. acknowledges support from the Zernike Institute for Advanced Materials at University of Groningen . F. T. acknowledges support from the Department of Physics at Alzahra University . Publisher Copyright: {\textcopyright} 2022 The Author(s)",

year = "2022",

month = aug,

day = "15",

doi = "10.1016/j.physleta.2022.128220",

language = "English",

volume = "443",

journal = "Physics Letters, Section A: General, Atomic and Solid State Physics",

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TY - JOUR

T1 - Dynamical Casimir actuation under non-equilibrium conditions

T2 - The influence of optical properties from different interacting bodies

AU - Tajik, F.

AU - Sedighi, M.

AU - Palasantzas, G.

N1 - Funding Information: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: George Palasantzas reports financial support was provided by University of Groningen Zernike Institute for Advanced Materials. Fatemeh Tajik reports financial support was provided by Alzahra University . Mehdi Sedighi reports financial support was provided by Hanze University of Applied Sciences . Funding Information: G. P. acknowledges support from the Zernike Institute for Advanced Materials at University of Groningen . F. T. acknowledges support from the Department of Physics at Alzahra University . Publisher Copyright: © 2022 The Author(s)

PY - 2022/8/15

Y1 - 2022/8/15

N2 - In this work we investigated the dynamical actuation of microsystems with non-identical material components in the presence of non-equilibrium Casimir forces between Au and highly doped SiC that show significant difference in conductivity. For autonomous systems, the bifurcation and phase space analysis revealed that when the less conductive material operates at higher temperature, then at short separations the non-equilibrium force causes instability. Furthermore, for periodically driven systems the Melnikov function and Poincare portrait analysis showed that the devices are more robust against chaotic motion when the less conductive component is at low temperature at short separations. At larger separations chaotic behavior is more likely to occur for systems with the more conductive component at higher temperature.

AB - In this work we investigated the dynamical actuation of microsystems with non-identical material components in the presence of non-equilibrium Casimir forces between Au and highly doped SiC that show significant difference in conductivity. For autonomous systems, the bifurcation and phase space analysis revealed that when the less conductive material operates at higher temperature, then at short separations the non-equilibrium force causes instability. Furthermore, for periodically driven systems the Melnikov function and Poincare portrait analysis showed that the devices are more robust against chaotic motion when the less conductive component is at low temperature at short separations. At larger separations chaotic behavior is more likely to occur for systems with the more conductive component at higher temperature.

KW - Chaotic motion

KW - Non-equilibrium Casimir force

KW - Optical properties

KW - Stable operation

U2 - 10.1016/j.physleta.2022.128220

DO - 10.1016/j.physleta.2022.128220

M3 - Article

AN - SCOPUS:85131458416

SN - 0375-9601

VL - 443

JO - Physics Letters, Section A: General, Atomic and Solid State Physics

JF - Physics Letters, Section A: General, Atomic and Solid State Physics

M1 - 128220

ER -

Dynamical Casimir actuation under non-equilibrium conditions: The influence of optical properties from different interacting bodies

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