Development of Fourier Transform Ultrafast Laser Flash Method for Simultaneous Measurement of Thermal Diffusivity and Interfacial Thermal Resistance

Baba, Takahiro; Baba, Tetsuya; Mori, Takao

doi:10.1007/s10765-023-03324-w

Int J Thermophys

2024

DOI: 10.1007/s10765-023-03324-w

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Development of Fourier Transform Ultrafast Laser Flash Method for Simultaneous Measurement of Thermal Diffusivity and Interfacial Thermal Resistance

Takahiro Baba,

Tetsuya Baba,

Takao Mori

Abstract: The thermoreflectance technique is one of the few methods which can measure thermal diffusivity of thin films as thin as 100 nm or thinner in the cross-plane direction. The thermoreflectance method under rear-heat front-detect configuration is sometimes called ultrafast laser flash method because of its similarity to laser flash method. Up to now it has typically only been possible to attempt to evaluate the interfacial thermal resistance between the thin films by preparing and measuring several samples with d… Show more

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Cited by 4 publications

References 40 publications

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Fourier Transform Thermoreflectance Method Under Front-Heat Front-Detect Configuration

Baba,

Mori

2024

Int J Thermophys

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The thermoreflectance method, which can measure thermal diffusivity in the cross-plane direction of thin films, mainly has two possible configurations; rear-heat front-detect (RF) and front-heat front-detect (FF) configuration. FF configuration is applicable to a wide variety of thin films including thin films deposited on opaque substrates, but this configuration has some problems in determination of the thermal diffusivity. One of the main problems is the effect of the penetration of pump beam and probe beam in thin film, which affects the initial temperature distribution near the sample’s surface after pulse heating. Several studies have tried to analyze the effect but there have been no practical analytical solutions which can solve this problem in FF configuration. In this paper, we propose a new analytical solution which considers the penetration of pump beam and probe beam into thin film, and by applying Fourier expansion analysis which we developed in a previous study to thermoreflectance signals, we have determined the thermal diffusivity of thin film in the thermoreflectance method under FF configuration. We measured platinum thin films with different thickness under both FF and RF configuration and obtained consistent thermal diffusivity values from both configurations.

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Fourier Transform Thermoreflectance Method Under Front-Heat Front-Detect Configuration

Baba,

Mori

2024

Int J Thermophys

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Thermal Diffusivity of Solid and Liquid 304 Stainless Steel, Iron, and Zirconium

Houssein,

Pierre,

Courtois

et al. 2024

Int J Thermophys

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Analysis of internal and external factors affecting thermal contact resistance from the perspective of entransy dissipation

Wang,

Gu,

Hong

et al. 2025

International Journal of Heat and Mass Transfer

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Development of Fourier Transform Ultrafast Laser Flash Method for Simultaneous Measurement of Thermal Diffusivity and Interfacial Thermal Resistance

Cited by 4 publications

References 40 publications

Fourier Transform Thermoreflectance Method Under Front-Heat Front-Detect Configuration

Fourier Transform Thermoreflectance Method Under Front-Heat Front-Detect Configuration

Thermal Diffusivity of Solid and Liquid 304 Stainless Steel, Iron, and Zirconium

Analysis of internal and external factors affecting thermal contact resistance from the perspective of entransy dissipation

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