Ultrahigh-contrast and large-bandwidth thermal rectification in near-field electromagnetic thermal transfer between nanoparticles

Linxiao Zhu; Clayton R. Otey; Shanhui Fan

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Ultrahigh-contrast and large-bandwidth thermal rectification in near-field electromagnetic thermal transfer between nanoparticles

机译：纳米粒子之间近场电磁热传递中的超高对比度和大带宽热整流

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摘要

We exploit the unique properties of optical waves in nanophotonic structures to enhance the capabilities for active control of electromagnetic thermal transfer at nanoscale. We show that the near-field thermal transfer between two nanospheres can exhibit a thermal rectification effect with very high contrast and large operating bandwidth. In this system, the scale invariance properties of the resonance modes result in a large difference in the coupling constants between relevant modes in the forward and reverse scenarios. Such a difference provides a mechanism for thermal rectification. The two-sphere system can also exhibit negative differential thermal conductance.

机译：我们利用纳米光子结构中光波的独特特性来增强主动控制纳米级电磁热传递的能力。我们表明，两个纳米球之间的近场热传递可以表现出具有高对比度和大工作带宽的热整流效果。在该系统中，共振模式的尺度不变性导致正向和反向场景中相关模式之间的耦合常数差异很大。这种差异提供了热整流的机制。两球系统还可以表现出负的差导热系数。

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来源
《Physical review》 |2013年第18期|184301.1-184301.8|共8页
作者
Linxiao Zhu; Clayton R. Otey; Shanhui Fan;
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作者单位

Department of Applied Physics, Stanford University, Stanford, California 94305, USA;

Department of Applied Physics, Stanford University, Stanford, California 94305, USA;

Department of Electrical Engineering, Ginzton Laboratory, Stanford University, Stanford, California 94305, USA;

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正文语种 eng
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thermal radiation; analytical and numerical techniques;

机译：热辐射分析和数值技术;

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3. Thermal rectification enabled by near-field Radiative heat transfer between intrinsic silicon and a dissimilar material [J] . Wang L.P., Zhang Z.M. Nanoscale and microscale thermophysical engineering . 2013,第4期

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4. Ultrahigh contrast and large-bandwidth thermal rectification in near-field electromagnetic thermal transfer between nanoparticles [C] . Linxiao Zhu, Clayton R. Otey, Shanhui Fan Conference on nanophotonic materials . 2014

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5. Near-field radiative transfer: Thermal radiation, thermophotovoltaic power generation and optical characterization. [D] . Francoeur, Mathieu. 2010

机译：近场辐射传递：热辐射，热光伏发电和光学表征。
6. Near-field thermal rectification devices using phase change periodic nanostructure [O] . Alok Ghanekar, Yanpei Tian, Matthew Ricci, -1

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7. Heat transfer between nanoparticles: Thermal conductance for near-field interactions [O] . Pérez Madrid Agustín, Rubí Capaceti José Miguel, Lapas L. C. 2008

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8. Electromagnetic Interaction, Thermal and Mass Transfer Modeling of the Photothermal Modulation of Mie Scattering Spectroscopy of Aerosols [R] . Barton, J. P. 2000

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Ultrahigh-contrast and large-bandwidth thermal rectification in near-field electromagnetic thermal transfer between nanoparticles

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