Dynamic measurement of near-field radiative heat transfer

被引:0
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作者
S. Lang
G. Sharma
S. Molesky
P. U. Kränzien
T. Jalas
Z. Jacob
A. Yu. Petrov
M. Eich
机构
[1] Institute of Optical and Electronic Materials,
[2] Hamburg University of Technology,undefined
[3] University of Alberta,undefined
[4] Department of Electrical and Computer Engineering,undefined
[5] Birck Nanotechnology Center,undefined
[6] School of Electrical and Computer Engineering,undefined
[7] Purdue University,undefined
[8] ITMO University,undefined
[9] Institute of Materials Research,undefined
[10] Helmholtz-Zentrum Geesthacht,undefined
来源
Scientific Reports | / 7卷
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摘要
Super-Planckian near-field radiative heat transfer allows effective heat transfer between a hot and a cold body to increase beyond the limits long known for black bodies. Until present, experimental techniques to measure the radiative heat flow relied on steady-state systems. Here, we present a dynamic measurement approach based on the transient plane source technique, which extracts thermal properties from a temperature transient caused by a step input power function. Using this versatile method, that requires only single sided contact, we measure enhanced radiative conduction up to 16 times higher than the blackbody limit on centimeter sized glass samples without any specialized sample preparation or nanofabrication.
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