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Investigations on Joule heating applications by multiphysical continuum simulations in nanoscale systems

By:

Feuchter, Manuel Klaus Ludwig [auth]

Material type: Article

ArticleLanguage: English Publication details: KIT Scientific Publishing 2014Description: 1 electronic resource (XIX, 222 p. p.)ISBN:

KSP/1000042982
9783731502616

Subject(s):

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Summary: This work furthers the overall understanding of a 3w-measurement, by considering previously unexamined macroscopic influence factors within measurement by Finite Element simulations (FES). Moreover, new measuring configurations are developed to determine (an)isotropic thermal conductivities of nanoscale samples. Since no analytic solutions are available for these configurations, a new evaluation methodology is presented to determine emergent thermal conductivities by FES and Neural Networks.

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This work furthers the overall understanding of a 3w-measurement, by considering previously unexamined macroscopic influence factors within measurement by Finite Element simulations (FES). Moreover, new measuring configurations are developed to determine (an)isotropic thermal conductivities of nanoscale samples. Since no analytic solutions are available for these configurations, a new evaluation methodology is presented to determine emergent thermal conductivities by FES and Neural Networks.

Creative Commons https://creativecommons.org/licenses/by-sa/4.0/ cc https://creativecommons.org/licenses/by-sa/4.0/

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