On the Casimir effect in the microelectromechanical systems MEMS

Janina Marciak-Kozlowska; Miroslaw Kozlowski

arXiv:cond-mat/0506226·cond-mat.other·May 23, 2007

On the Casimir effect in the microelectromechanical systems MEMS

Janina Marciak-Kozlowska, Miroslaw Kozlowski

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TL;DR

This paper investigates the thermal transport phenomena in MEMS, formulating and solving a thermal Klein-Gordon equation to understand nanoscale effects like the Casimir force.

Contribution

It introduces a thermal Klein-Gordon transport model for MEMS, providing a new approach to analyze nanoscale thermal effects and the Casimir phenomenon.

Findings

01

Formulation of a thermal Klein-Gordon equation for MEMS

02

Solution of the equation reveals nanoscale thermal transport characteristics

03

Insights into the Casimir effect's influence on MEMS performance

Abstract

In this paper the thermal transport phenomena in MEMS are investigated. The thermal Klein-Gordon transport equation for nanoscale structures is formulated and solved. Key words: MEMS, Klein-Gordon equation, Casimir effect.

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Taxonomy

TopicsQuantum Electrodynamics and Casimir Effect · Experimental and Theoretical Physics Studies · Quantum Mechanics and Applications