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Thermal conductivity measurements using 1ω and 3ω methods revisited for voltage-driven setups
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- Autor/in:
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- Erscheinungsjahr:
- 2011
- Medientyp:
- Text
- Schlagworte:
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- Fourier analysis
- nanowires
- nickel
- thermal conductivity
- thin films
- Beschreibung:
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- 1 and 3 methods are widely established transient measurement techniques for the characterization of thermal transport in bulk-materials, thin films, and 1D nano-objects. These methods are based on resistance oscillations of a heater caused by Joule-heating from a sinusoidal current at frequency 1ω which lead to changes in the 1 voltage and produce a voltage component at 3ω. Although the usual formalism for analyzing the measurement data assumes an ideal current source, voltage-driven measurement setups are employed in many cases. In this context, we find that there has been lack of clarity if a correction generally has to be considered when analyzing the measurement data from voltage driven setups. In this work, Fourier-analysis is employed to show that a correction is not required for 1ω methods and for 3ω measurements that use common-mode-subtraction. Experimental results are presented for a line heater on a fused silica substrate with known thermal properties, and for an individual nickel wire with diameter of 150 nm. © 2011 American Institute of Physics.
- Lizenz:
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- info:eu-repo/semantics/restrictedAccess
- Quellsystem:
- Forschungsinformationssystem der UHH
Interne Metadaten
- Quelldatensatz
- oai:www.edit.fis.uni-hamburg.de:publications/f4a2862c-09eb-4742-8848-0767d59ccec5
