Thermal conductivity and thermo-optic coefficient measurements of transparent thin films using quantitative phase microscopy

IF 4.6 2区 物理与天体物理 Q1 OPTICS Optics and Laser Technology Pub Date : 2024-11-22 DOI:10.1016/j.optlastec.2024.112128
Nicholaus Kevin Tanjaya , Takahiro Baba , Masataka Imura , Takao Mori , Satoshi Ishii
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Abstract

The temperature increase of a thin film as a result of laser irradiation causes phase shift to the transmitted light. This phase shift can be quantitatively imaged by quantitative phase microscopy (QPM). Since the phase shift is a function of the thermal conductivity and thermo-optic coefficient (TOC), the recorded phase shift can be used to extract the thermal conductivity and TOC of the thin film by modeling the heat transfer within the thin film and its substrate. In this study, the laser-induced phase shift of three different transparent thin films deposited on transparent substrates is recorded by QPM. The thermal conductivity and TOC of the thin films obtained based on our heat transfer model show reasonable agreement with the values obtained from other methods. This method is simple yet cost-effective, which is advantageous compared with other available methods such as the thermoreflectance method.
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利用定量相显微镜测量透明薄膜的导热系数和热光学系数
激光照射导致薄膜温度升高,从而引起透射光的相移。这种相移可以通过定量相位显微镜(QPM)进行定量成像。由于相移是热导率和热光学系数(TOC)的函数,因此可通过对薄膜及其基底内部的热传导进行建模,利用记录的相移来提取薄膜的热导率和热光学系数。本研究利用 QPM 记录了沉积在透明基底上的三种不同透明薄膜的激光诱导相移。根据我们的热传导模型得到的薄膜热导率和 TOC 与其他方法得到的数值显示出合理的一致性。与热反射法等其他现有方法相比,这种方法简单且成本效益高。
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来源期刊
CiteScore
8.50
自引率
10.00%
发文量
1060
审稿时长
3.4 months
期刊介绍: Optics & Laser Technology aims to provide a vehicle for the publication of a broad range of high quality research and review papers in those fields of scientific and engineering research appertaining to the development and application of the technology of optics and lasers. Papers describing original work in these areas are submitted to rigorous refereeing prior to acceptance for publication. The scope of Optics & Laser Technology encompasses, but is not restricted to, the following areas: •development in all types of lasers •developments in optoelectronic devices and photonics •developments in new photonics and optical concepts •developments in conventional optics, optical instruments and components •techniques of optical metrology, including interferometry and optical fibre sensors •LIDAR and other non-contact optical measurement techniques, including optical methods in heat and fluid flow •applications of lasers to materials processing, optical NDT display (including holography) and optical communication •research and development in the field of laser safety including studies of hazards resulting from the applications of lasers (laser safety, hazards of laser fume) •developments in optical computing and optical information processing •developments in new optical materials •developments in new optical characterization methods and techniques •developments in quantum optics •developments in light assisted micro and nanofabrication methods and techniques •developments in nanophotonics and biophotonics •developments in imaging processing and systems
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