Sensitivity of actuation dynamics of Casimir oscillators on finite temperature with topological insulator materials: Response of repulsive vs attractive interactions

Fatemeh Tajik; George Palasantzas

doi:10.1016/j.physleta.2023.129032

Sensitivity of actuation dynamics of Casimir oscillators on finite temperature with topological insulator materials: Response of repulsive vs attractive interactions

Fatemeh Tajik, George Palasantzas^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

5 Citations (Scopus)

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Abstract

We explore the sensitivity of repulsive and attractive Casimir interactions on thermal fluctuations in topological insulator materials, and the associated effects on non-linear actuation towards chaotic motion. For system at low temperature and applied magnetization in the same direction, by increasing the temperature the sensitivity of the Casimir force to the magnetization, at large separations, weakens. Moreover, by increasing the temperature the repulsive force vanishes for weak magnetization. Furthermore, for conservative systems the stable actuation area for high temperature does not show strong sensitivity to changes of the magnetization and the magnetoelectric effect. For non-conservative system with weak magnetization in the same direction leading to attractive Casimir forces, increment of the temperature increases the possibility for occurrence of chaotic motion.

Original language	English
Article number	129032
Number of pages	11
Journal	Physics Letters, Section A: General, Atomic and Solid State Physics
Volume	481
DOIs	https://doi.org/10.1016/j.physleta.2023.129032
Publication status	Published - 5-Sept-2023

Keywords

Attractive Casimir forces
Chaotic motion
Magnetization
Repulsive Casimir forces
Thermal fluctuation
Topological insulators

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Sensitivity of actuation dynamics of Casimir oscillators on finite temperature with topological insulator materials: Response of repulsive vs attractive interactionsFinal publisher's version, 2.39 MBLicence: CC BY

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title = "Sensitivity of actuation dynamics of Casimir oscillators on finite temperature with topological insulator materials: Response of repulsive vs attractive interactions",

abstract = "We explore the sensitivity of repulsive and attractive Casimir interactions on thermal fluctuations in topological insulator materials, and the associated effects on non-linear actuation towards chaotic motion. For system at low temperature and applied magnetization in the same direction, by increasing the temperature the sensitivity of the Casimir force to the magnetization, at large separations, weakens. Moreover, by increasing the temperature the repulsive force vanishes for weak magnetization. Furthermore, for conservative systems the stable actuation area for high temperature does not show strong sensitivity to changes of the magnetization and the magnetoelectric effect. For non-conservative system with weak magnetization in the same direction leading to attractive Casimir forces, increment of the temperature increases the possibility for occurrence of chaotic motion.",

keywords = "Attractive Casimir forces, Chaotic motion, Magnetization, Repulsive Casimir forces, Thermal fluctuation, Topological insulators",

author = "Fatemeh Tajik and George Palasantzas",

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Sensitivity of actuation dynamics of Casimir oscillators on finite temperature with topological insulator materials: Response of repulsive vs attractive interactions. / Tajik, Fatemeh; Palasantzas, George.
In: Physics Letters, Section A: General, Atomic and Solid State Physics, Vol. 481, 129032, 05.09.2023.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - Sensitivity of actuation dynamics of Casimir oscillators on finite temperature with topological insulator materials

T2 - Response of repulsive vs attractive interactions

AU - Tajik, Fatemeh

AU - Palasantzas, George

PY - 2023/9/5

Y1 - 2023/9/5

N2 - We explore the sensitivity of repulsive and attractive Casimir interactions on thermal fluctuations in topological insulator materials, and the associated effects on non-linear actuation towards chaotic motion. For system at low temperature and applied magnetization in the same direction, by increasing the temperature the sensitivity of the Casimir force to the magnetization, at large separations, weakens. Moreover, by increasing the temperature the repulsive force vanishes for weak magnetization. Furthermore, for conservative systems the stable actuation area for high temperature does not show strong sensitivity to changes of the magnetization and the magnetoelectric effect. For non-conservative system with weak magnetization in the same direction leading to attractive Casimir forces, increment of the temperature increases the possibility for occurrence of chaotic motion.

AB - We explore the sensitivity of repulsive and attractive Casimir interactions on thermal fluctuations in topological insulator materials, and the associated effects on non-linear actuation towards chaotic motion. For system at low temperature and applied magnetization in the same direction, by increasing the temperature the sensitivity of the Casimir force to the magnetization, at large separations, weakens. Moreover, by increasing the temperature the repulsive force vanishes for weak magnetization. Furthermore, for conservative systems the stable actuation area for high temperature does not show strong sensitivity to changes of the magnetization and the magnetoelectric effect. For non-conservative system with weak magnetization in the same direction leading to attractive Casimir forces, increment of the temperature increases the possibility for occurrence of chaotic motion.

KW - Attractive Casimir forces

KW - Chaotic motion

KW - Magnetization

KW - Repulsive Casimir forces

KW - Thermal fluctuation

KW - Topological insulators

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VL - 481

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

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M1 - 129032

ER -

Sensitivity of actuation dynamics of Casimir oscillators on finite temperature with topological insulator materials: Response of repulsive vs attractive interactions

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