Modeling self-heating effects in 10nm channel length nanowire transistors

A. Hossain, D. Vasileska, S. Goodnick, K. Raleva
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Abstract

Modern technology has enabled the fabrication of materials with characteristic dimensions of a few nanometers. Examples are superlattices, nanowires and quantum dots. Thermal transport in these low-dimensional nanostructures is important for next-generation microelectronic cooling techniques, novel solid-state energy conversion devices, and micro-nanoscale sensors. Thermal transport caused by lattice vibrations or phonons in nanostructures is very complicated due to the comparable phonon mean-free path, phonon wavelength, and the characteristic size of the nanostructures.
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10nm通道长度纳米线晶体管的自热效应建模
现代技术已经能够制造出特征尺寸只有几纳米的材料。例如超晶格、纳米线和量子点。这些低维纳米结构中的热输运对于下一代微电子冷却技术、新型固态能量转换设备和微纳米传感器非常重要。由于声子平均自由程、声子波长和纳米结构的特征尺寸具有可比性,晶格振动或声子在纳米结构中引起的热输运非常复杂。
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