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Heat conduction measurements in ballistic 1D phonon waveguides indicate breakdown of the thermal conductance quantization

机译：弹道一维声子波导中的热导率测量表明热导率量化的分解

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Emerging quantum technologies require mastering thermal management, especially at the nanoscale. It is now accepted that thermal metamaterial-based phonon manipulation is possible, especially at sub-kelvin temperatures. In these extreme limits of low temperatures and dimensions, heat conduction enters a quantum regime where phonon exchange obeys the Landauer formalism. Phonon transport is then governed by the transmission coefficients between the ballistic conductor and the thermal reservoirs. Here we report on ultra-sensitive thermal experiments made on ballistic 1D phonon conductors using a micro-platform suspended sensor. Our thermal conductance measurements attain a power sensitivity of 15 attoWatts

\sqrt{Hz}^{- 1}

around 100 mK. Ballistic thermal transport is dominated by non-ideal transmission coefficients and not by the quantized thermal conductance of the nanowire itself. This limitation of heat transport in the quantum regime may have a significant impact on modern thermal management and thermal circuit design.

机译：新兴的量子技术需要掌握热管理，尤其是在纳米级。现在已经接受了基于热超材料的声子操纵是可能的，尤其是在开尔文温度以下。在低温和低温的极端极限下，热传导进入量子态，声子交换遵循朗道尔形式主义。声子的传输受弹道导体与储热器之间的传输系数控制。在这里，我们报告使用微平台悬挂传感器在弹道一维声子导体上进行的超灵敏热实验。我们的热导测量结果达到了15 ofattoWatts

\sqrt{Hz}

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期刊名称 Nature Communications
作者
Adib Tavakoli; Kunal Lulla; Thierry Crozes; Natalio Mingo; Eddy Collin; Olivier Bourgeois;
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年(卷),期 -1(9),-1
年度 -1
页码 4287
总页数 8
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专利

1. Heat conduction measurements in ballistic 1D phonon waveguides indicate breakdown of the thermal conductance quantization [J] . Adib Tavakoli, Kunal Lulla, Thierry Crozes, Nature Communications . 2018,第1期

机译：弹道一维声子波导中的热导率测量表明热导率量化的分解
2. Ballistic thermal conductance by phonons through superlattice quantum-waveguides [J] . Zhong-Xiang Xie, Yong Zhang, Xia Yu, Journal of Applied Physics . 2014,第10期

机译：声子通过超晶格量子波导的弹道热导
3. Heating-frequency-dependent thermal conductivity: An analytical solution from diffusive to ballistic regime and its relevance to phonon scattering measurements [J] . Fan Yang, Chris Dames Physical review . 2015,第16期

机译：与加热频率有关的热导率：从扩散状态到弹道状态的分析解决方案，以及与声子散射测量的相关性
4. Measurement of heat conduction in a ballistic 1D phonon waveguide: no quantization of the thermal conductance [C] . Adib Tavakoli, Kunal Lulla, Thierry Crozes, IEEE International Conference on Nanotechnology . 2018

机译：弹道一维声子波导中的热传导测量：不对热传导进行量化
5. Heat flux and thermal contact conductance determination employing inverse heat conduction using model reduction through matrix transform. [D] . Shenefelt, Jeffrey Ralph. 1999

机译：使用通过矩阵变换进行模型归约的逆热传导来确定热通量和热接触电导率。
6. Steady heat conduction-based thermal conductivity measurement of single walled carbon nanotubes thin film using a micropipette thermal sensor [O] . R. Shrestha, K. M. Lee, W. S. Chang, -1

机译：使用微量移液器热传感器基于热传导的单壁碳纳米管薄膜的稳态热导率测量
7. Heating-frequency-dependent thermal conductivity: An analytical solution from diffusive to ballistic regime and its relevance to phonon scattering measurements [O] . Fan Yang, Chris Dames 2015

机译：加热频率依赖导热率：扩散对弹道制度的分析解决方案及其与声子散射测量的相关性

Heat conduction measurements in ballistic 1D phonon waveguides indicate breakdown of the thermal conductance quantization

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