EXPERIMENTAL INVESTIGATION OF SCALING EFFECT ON THERMAL TRANSPORT IN NANOSCALE HOT SPOTS

Keivan Etessam-Yazdani; Mehdi Asheghi; Hendrik F. Hamann

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EXPERIMENTAL INVESTIGATION OF SCALING EFFECT ON THERMAL TRANSPORT IN NANOSCALE HOT SPOTS

机译：纳米尺度热斑尺度效应对热输运的实验研究

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This article reports experimental investigation of the scaling effect on thermal transport in platinum nanoheaters deposited on a single crystalline silicon substrate. The size dependency of the thermal resistances of nanoheaters with dimensions from 5 mm down to 100 nm was experimentally obtained. Additional joule heating and electrical resistance thermometry in heater/sensor pairs of various dimensions and spacing (100 to 400 nm) were carried out in order to study the temperature distribution in the vicinity of these nanoheaters. The results of these two sets of measurements confirm that the thermal resistances of smaller nanoheaters are dominated by the interface resistance between the platinum and silicon substrate. Furthermore, analytical solutions of the BTE around a hot spot were used to evaluate and examine the significance of the localized heating or subcontinuum transport around a hot spot.

机译：本文报道了对沉积在单晶硅衬底上的铂纳米加热器中的热传输的缩放效应的实验研究。通过实验获得了尺寸从5 mm到100 nm的纳米加热器的热阻的尺寸依赖性。为了研究这些纳米加热器附近的温度分布，在各种尺寸和间距（100至400 nm）的加热器/传感器对中进行了额外的焦耳加热和电阻测温。这两组测量的结果证实，较小的纳米加热器的热阻受铂和硅衬底之间的界面电阻支配。此外，热点周围BTE的分析解决方案用于评估和检查热点周围局部加热或次连续谱运输的重要性。

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来源
《Nanoscale and microscale thermophysical engineering》 |2009年第4期|共15页
作者
Keivan Etessam-Yazdani; Mehdi Asheghi; Hendrik F. Hamann;
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正文语种 eng
中图分类热力工程、热机;
关键词
localized heating; subcontinuum heat transport; silicon chip;

机译：局部加热;亚连续谱传热;硅芯片;

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1. EXPERIMENTAL INVESTIGATION OF SCALING EFFECT ON THERMAL TRANSPORT IN NANOSCALE HOT SPOTS [J] . Keivan Etessam-Yazdani, Mehdi Asheghi, Hendrik F. Hamann Nanoscale and microscale thermophysical engineering . 2009,第4期

机译：纳米尺度热斑尺度效应对热输运的实验研究
2. Experimental Investigation of Hole Transport in Strained $hbox{Si}_{1 - x}hbox{Ge}_{x}/hbox{SOI}$ pMOSFETs: Part II—Mobility and High-Field Transport in Nanoscaled PMOS [J] . Casse M., Hutin L., Le Royer C., Electron Devices, IEEE Transactions on . 2012,第3期

机译：应变$ hbox {Si} _ {1-x} hbox {Ge} _ {x} / hbox {SOI} $ pMOSFET中空穴传输的实验研究：第二部分-纳米级PMOS中的迁移率和高场传输
3. Nanoscale imaging of plasmonic hot spots and dark modes with the photothermal-induced resonance technique [J] . Lahiri B., Holland G., Aksyuk V., Nano letters . 2013,第7期

机译：用光热诱导共振技术对等离激元热点和暗模进行纳米成像
4. EXPERIMENTAL INVESTIGATION OF SCALING EFFECT ON THERMAL TRANSPORT IN NANOSCALE HOTSPOTS [C] . Keivan Etessam-Yazdani, Mehdi Asheghi, Hendrik F. Hamann ASME(American Society of Mechanical Engineers)/JSME(Japanese Society of Mechanical Engineers) Thermal Engineering Summer Heat Transfer Conference 2007 . 2007

机译：尺度效应对纳米鳞茎热传递尺度效应的实验研究
5. Photonic Metamaterials: Spectral Control and Modulation of Nanoscale Thermal Radiative Transport [D] . Ghanekar, Alok. 2018

机译：光子超材料：纳米级热辐射传输的光谱控制和调制。
6. Universal Scaling of Robust Thermal Hot Spot and Ionic Current Enhancement by Focused Ohmic Heating in a Conic Nanopore [O] . Zehao Pan, Ceming Wang, Meng Li, -1

机译：在圆锥形纳米孔中通过聚焦欧姆加热对鲁棒热热点和离子电流增强的通用缩放
7. Experimental Investigation of Hot Spot Factor for Assessing Hot Spot Temperature in Transformers [O] . Daghrah, Muhammad, Wang, Zhongdong, Liu, Qiang, 2016

机译：变压器热点温度热点因子的实验研究
8. Transport at the Nanoscale: Integration of Micro-Macro Scales for Electrothermal Device Simulations [R] . Pecchia, A. 2010

机译：纳米尺度的传输：微观宏观尺度的集成用于电热设备模拟

EXPERIMENTAL INVESTIGATION OF SCALING EFFECT ON THERMAL TRANSPORT IN NANOSCALE HOT SPOTS

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