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Study of nanoheaters and their effect upon temperature changes at the nanometer scale Information
Nanoscale heat generation and dissipation impacts many fields of current research, including applications in medical therapies and the semiconductor industry, where device dimensions continue to be reduced as number densities increase. As device sizes approach the nanoscale, they become close in scale to the phonon mean-free path, where certain pathways for heat dissipation are less efficient. The classical heat diffusion law breaks down and the heat flow becomes ballistic. Also in this regime, interfacial properties begin to dominate and limit the heat transfer away from the nanostructure. Characterizing these interfacial properties and their impact upon heat dissipation is essential for an understanding of nanoscale heat transport.
Study of nanoheaters and their effect upon temperature changes at the nanometer scale Information
Nanoscale heat generation and dissipation impacts many fields of current research, including applications in medical therapies and the semiconductor industry, where device dimensions continue to be reduced as number densities increase. As device sizes approach the nanoscale, they become close in scale to the phonon mean-free path, where certain pathways for heat dissipation are less efficient. The classical heat diffusion law breaks down and the heat flow becomes ballistic. Also in this regime, interfacial properties begin to dominate and limit the heat transfer away from the nanostructure. Characterizing these interfacial properties and their impact upon heat dissipation is essential for an understanding of nanoscale heat transport.
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论文共 124 篇作者统计合作学者相似作者
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SpringerBriefs in Applied Sciences and Technology (2019)
Photo-Thermal Spectroscopy with Plasmonic and Rare-Earth Doped (Nano)MaterialsSpringerBriefs in Applied Sciences and Technologypp.23-30, (2018)
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#Papers: 122
#Citation: 6375
H-Index: 32
G-Index: 79
Sociability: 5
Diversity: 3
Activity: 4
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