Determination of thermal diffusivity of thin films by applying Fourier expansion analysis to thermo-reflectance signal after periodic pulse heating

AbstractInformation on the thermal properties of materials is very important both in fundamental physical research and in engineering applications. The development of materials with desirable heat transport properties requires methods for their experimental determination. In this paper basic concepts of the measurement of parameters describing the heat transport in solids are discussed. Attention is paid to methods utilizing nonstationary temperature fields, especially to photothermal methods in which the temperature disturbance in the investigated sample is generated through light absorption. Exemplary photothermal measuring techniques, which can be realized using common experimental equipment, are described in detail. It is shown that using these techniques it is possible to determine the thermal diffusivity of bulk transparent samples, opaque and semi-transparent plate-form samples, and the thermal conductivity of thin films deposited on thick substrates. Results of the investigation of thermal diffusivity of the ground in the polar region, which is based on the analysis of the propagation of the thermal wave generated by sun-light, are also presented. Based on chosen examples one can state that photothermal techniques can be used for determination of the thermal properties of very different materials.

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Determination of Thermal Diffusivity and Its Temperature Dependence of Fe1−xO Scale at High Temperature by Electrical-Optical Hybrid Pulse-Heating Method

ISIJ International ◽

10.2355/isijinternational.isijint-2019-635 ◽

2021 ◽

Vol 61 (1) ◽

pp. 26-32

Author(s):

Yuanru Yang ◽

Hiromichi Watanabe ◽

Megumi Akoshima ◽

Miyuki Hayashi ◽

Masahiro Susa ◽

...

Keyword(s):

High Temperature ◽

Thermal Diffusivity ◽

Temperature Dependence ◽

Pulse Heating ◽

Heating Method

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Determination of Thermal Diffusivity Coefficient of Thin Films by Thermal Square Wave Method

Ferroelectrics ◽

10.1080/00150193.2011.623637 ◽

2011 ◽

Vol 424 (1) ◽

pp. 28-35 ◽

Cited By ~ 5

Author(s):

O. V. Malyshkina ◽

A. A. Movchikova ◽

O. N. Kalugina ◽

A. V. Daineko

Keyword(s):

Thin Films ◽

Thermal Diffusivity ◽

Diffusivity Coefficient ◽

Wave Method ◽

Square Wave ◽

Thermal Diffusivity Coefficient

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A Novel Method for Determination of the Thermal Diffusivity of Thin Films Using a Modulated CO2 Laser

International Journal of Thermophysics ◽

10.1007/s10765-005-2367-x ◽

2005 ◽

Vol 26 (1) ◽

pp. 203-211 ◽

Cited By ~ 3

Author(s):

Y. Shimizu ◽

J. Ishii ◽

K. Shinzato ◽

T. Baba

Keyword(s):

Thin Films ◽

Thermal Diffusivity ◽

Co2 Laser ◽

Novel Method

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Laser reflectance relaxation spectroscopy: Determination of thermal diffusivity in thin films of gold

Solid State Communications ◽

10.1016/0038-1098(73)90742-4 ◽

1973 ◽

Vol 13 (11) ◽

pp. 1845-1849 ◽

Cited By ~ 2

Author(s):

Y. Yeh ◽

F. Wooten ◽

T. Huen

Keyword(s):

Thin Films ◽

Thermal Diffusivity ◽

Laser Reflectance

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Scanning thermal probe microscope method for the determination of thermal diffusivity of nanocomposite thin films

Review of Scientific Instruments ◽

10.1063/1.4960332 ◽

2016 ◽

Vol 87 (8) ◽

pp. 084903 ◽

Cited By ~ 3

Author(s):

Deepak Varandani ◽

Khushboo Agarwal ◽

Juergen Brugger ◽

Bodh Raj Mehta

Keyword(s):

Thin Films ◽

Thermal Diffusivity ◽

Thermal Probe ◽

Nanocomposite Thin Films ◽

Probe Microscope

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Determination of thermal conductivity, thermal diffusivity and specific heat capacity of porous silicon thin films using the 3ω method

International Journal of Heat and Mass Transfer ◽

10.1016/j.ijheatmasstransfer.2021.122346 ◽

2022 ◽

Vol 184 ◽

pp. 122346

Author(s):

Sobhan Erfantalab ◽

Giacinta Parish ◽

Adrian Keating

Keyword(s):

Thin Films ◽

Thermal Conductivity ◽

Heat Capacity ◽

Thermal Diffusivity ◽

Porous Silicon ◽

Specific Heat ◽

Specific Heat Capacity ◽

3Ω Method ◽

Silicon Thin Films

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Optimised method of thermal diffusivity determination of thin films by means of laser-induced dynamic gratings

High Temperatures-High Pressures ◽

10.1068/htwu506 ◽

2001 ◽

Vol 33 (5) ◽

pp. 517-524

Author(s):

Eugeny Ivakin ◽

Liudmila Makarova ◽

Alexander Rubanov

Keyword(s):

Thin Films ◽

Thermal Diffusivity

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Interactions Between Al and Cr Thin Films

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100093158 ◽

1976 ◽

Vol 34 ◽

pp. 638-639

Author(s):

R. M. Anderson ◽

T. M. Reith ◽

M. J. Sullivan ◽

E. K. Brandis

Keyword(s):

Thin Films ◽

Room Temperature ◽

Vacuum System ◽

Processing Temperature ◽

Diffusion Couples ◽

Electronic Circuits ◽

Intermetallic Formation ◽

Si Substrates ◽

Aluminum Silicon

Thin films of aluminum or aluminum-silicon can be used in conjunction with thin films of chromium in integrated electronic circuits. For some applications, these films exhibit undesirable reactions; in particular, intermetallic formation below 500 C must be inhibited or prevented. The Al films, being the principal current carriers in interconnective metal applications, are usually much thicker than the Cr; so one might expect Al-rich intermetallics to form when the processing temperature goes out of control. Unfortunately, the JCPDS and the literature do not contain enough data on the Al-rich phases CrAl7 and Cr2Al11, and the determination of these data was a secondary aim of this work.To define a matrix of Cr-Al diffusion couples, Cr-Al films were deposited with two sets of variables: Al or Al-Si, and broken vacuum or single pumpdown. All films were deposited on 2-1/4-inch thermally oxidized Si substrates. A 500-Å layer of Cr was deposited at 120 Å/min on substrates at room temperature, in a vacuum system that had been pumped to 2 x 10-6 Torr. Then, with or without vacuum break, a 1000-Å layer of Al or Al-Si was deposited at 35 Å/s, with the substrates still at room temperature.

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