Study on Phonon Drag Effect and Phonon Transport in Thin Sl-on-lnsulator Layers

机译：薄SL-on-LUNULATOR层中的声子拖曳效果和声子输送研究

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The Seebeck coefficient of P-doped ultrathin Si-on-insulator (SOI) layers is investigated for the application to a highly-sensitive thermopile infrared photodetector. It is found that the Seebeck coefficient originating from the phonon drag is significant in the lightly doped region and depends on the carrier concentration with increasing carrier concentration above ~5×10~(18) cm~(-3) . On the basis of Seebeck coefficient calculations considering both electron and phonon distribution, the phonon-drag part of SOI Seebeck coefficient is mainly governed by the phonon transport, in which the phonon-phonon scattering process is dominant rather than the crystal boundary scattering even in the SOI layer with a thickness of 10 nm. This fact suggests that the phonon-drag Seebeck coefficient is influenced by the phonon modes different from the thermal conductivity.

机译：研究了P掺杂的超薄Si-on-绝缘体（SOI）层的塞贝克系数用于施加到高度敏感的热电堆红外光电探测器。结果发现，源自声子阻力的塞贝克系数在轻微掺杂的区域中具有重要意义，并且取决于载体浓度，载流量浓度增加到5×10〜（18）cm〜（-3）。在考虑电子和声子分布的塞伯克系数计算的基础上，SOI Seebeck系数的声音阻力部分主要由声子传输管理，其中源位散射过程占主导地位，而不是晶体边界散射即使在其中SOI层，厚度为10nm。这一事实表明，声子拖动塞贝克系数受到不同于导热率的声子模式的影响。

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《International Conference Inter Academia》|2015年||共4页
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Hiroya Ikeda; Takuro Oda; Yuhei Suzuki;
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中图分类 TB3-532;
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Thermoelectrics; Si on insulator; Seebeck coefficient; Phonon drag; Phonon mean-free-path;

机译：热电;绝缘体上的Si;塞贝克系数;声子拖动;声子易意思;

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专利

1. Phonon drag effect on Seebeck coefficient of ultrathin P-doped Si-on-insulator layers [J] . Salleh F., Oda T., Suzuki Y., Applied Physics Letters . 2014,第10期

机译：声子拖曳效应对超薄P掺杂绝缘子上Si层塞贝克系数的影响
2. Phonon drag effect on Seebeck coefficient of ultrathin P-doped Si-on-insulator layers [J] . F. Salleh, T. Oda, Y. Suzuki, Applied Physics Letters . 2014,第10期

机译：声子拖曳效应对超薄P掺杂绝缘子上Si层塞贝克系数的影响
3. Phonon thermal transport in β-NX (X = P, As, Sb) monolayers: A first-principles study of the interplay between harmonic and anharmonic phonon properties [J] . Taheri Armin, Da Silva Carlos, Amon Cristina H. Physical review . 2019,第23期

机译：β-NX（X = P，As，Sb）单层中的声子热传输：谐波与非谐声子特性之间相互作用的第一性原理研究
4. Study on Phonon Drag Effect and Phonon Transport in Thin Sl-on-lnsulator Layers [C] . Hiroya Ikeda, Takuro Oda, Yuhei Suzuki International Conference Inter Academia . 2015

机译：薄SL-on-LUNULATOR层中的声子拖曳效果和声子输送研究
5. First-principles study of phonon transport in two-dimensional materials and phonon transmission across magnesium silicide/magnesium stannide interfaces. [D] . Gu, Xiaokun. 2016

机译：第一性原理研究声子在二维材料中的传输以及声子在硅化镁/锡化镁界面上的传输。
6. A first-principles study on the phonon transport in layered BiCuOSe [O] . Hezhu Shao, Xiaojian Tan, Guo-Qiang Liu, -1

机译：层状BiCuOSe中声子输运的第一性原理研究
7. Ballistic Phonon Transport in Ultra-Thin Silicon Layers: Effects of Confinement and Orientation [O] . Karamitaheri, Hossein, Neophytou, Neophytos, Kosina, Hans 2013

机译：超薄硅层中的弹道声子输运：限制和定位

Study on Phonon Drag Effect and Phonon Transport in Thin Sl-on-lnsulator Layers

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