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雷达卡
摘要翻译:
我们表明,由电磁涨落介导的两个物体之间的热传输可以通过中间量子电路来控制--这导致了介观光子热晶体管(MPHT)的器件概念。我们的理论分析基于一个新的Meir-Wingreen-Landauer型电导公式,该公式给出了在有限温度下通过耦合到两个耗散库的任意电路元件的光子热流。作为一个例子,我们给出了当中间电路可以描述为电磁谐振器时的精确解。我们详细讨论了如何用磁通控制的SQUID电路在实验上实现MPHT。
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英文标题:
《Mesoscopic photon heat transistor》
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作者:
Teemu Ojanen and Antti-Pekka Jauho
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最新提交年份:
2007
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分类信息:
一级分类:Physics 物理学
二级分类:Mesoscale and Nanoscale Physics 介观和纳米物理
分类描述:Semiconducting nanostructures: quantum dots, wires, and wells. Single electronics, spintronics, 2d electron gases, quantum Hall effect, nanotubes, graphene, plasmonic nanostructures
半导体纳米结构:量子点、线和阱。单电子学,自旋电子学,二维电子气,量子霍尔效应,纳米管,石墨烯,等离子纳米结构
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一级分类:Physics 物理学
二级分类:Statistical Mechanics 统计力学
分类描述:Phase transitions, thermodynamics, field theory, non-equilibrium phenomena, renormalization group and scaling, integrable models, turbulence
相变,热力学,场论,非平衡现象,重整化群和标度,可积模型,湍流
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英文摘要:
We show that the heat transport between two bodies, mediated by electromagnetic fluctuations, can be controlled with an intermediate quantum circuit - leading to the device concept Mesoscopic Photon Heat Transistor (MPHT). Our theoretical analysis is based on a novel Meir-Wingreen-Landauer type of conductance formula, which gives the photonic heat current through an arbitrary circuit element coupled to two dissipative reservoirs at finite temperatures. As an illustration we present an exact solution for the case when the intermediate circuit can be described as an electromagnetic resonator. We discuss in detail how the MPHT can be implemented experimentally in terms of a flux-controlled SQUID circuit.
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PDF链接:
https://arxiv.org/pdf/712.2767
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