Resonant-enhanced dipolar interaction between THz-photons and confined acoustic phonons in nanostructures

机译：太赫兹光子与受限声子在纳米结构中的共振增强偶极相互作用

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By using a frequency-controlled narrow band THz source, a Fourier Transform Infrared (FTIR) spectroscopy system, and a frequency-controlled terahertz (THz) emitter, for the first time, we studied the THz photon absorption related to the THz confined acoustic vibrations in semiconductor nanocrystals. Through a specific charge separation in the CdSe/CdTe type-II nanocrystals and a piezoelectric coupling in the wurtzite CdSe nanocrystals, the THz photons can be resonantly coupled with (l=1) dipolar modes and the (l=0) breathing modes, respectively. Our results provide new mechanisms for low dimensional systems to convert a THz photon into a phonon of the same frequency.

机译：通过使用频率控制的窄带太赫兹源，傅立叶变换红外（FTIR）光谱系统和频率控制的太赫兹（THz）发射器，我们首次研究了与太赫兹受限声振动有关的太赫兹光子吸收在半导体纳米晶体中。通过CdSe / CdTe II型纳米晶体中的特定电荷分离和纤锌矿CdSe纳米晶体中的压电耦合，THz光子可以分别与（l = 1）偶极模式和（l = 0）呼吸模式共振耦合。。我们的结果为低维系统将THz光子转换为相同频率的声子提供了新的机制。

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来源
《Conference on Ultrafast Phenomena in Semiconductors and Nanostructure Materials; 20080120-23; San Jose,CA(US)》|2008年|P.ix|共2页
会议地点 San JoseCA(US)
作者
Tzu-Ming Liu; Ja-Yu Lu; Chung-Chiu Kuo; Meng-Ju Yang; Chih-Wei Lai; Pi-Tai Chou; Ming-Hao Chang; Hsiang-Lin Liu; Yu-Tai Li; Ci-Ling Pan; Shih-Hung Lin; Chieh-Hsiung Kuan; Chi-Kuang Sun;
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作者单位

Graduate Institute of Photonics and Optoelectronics, National Taiwan University, Taipei 10617, Taiwan R.O.C.;

Department of Chemistry, National Taiwan University, Taipei 10617, Taiwan R.O.C.;

Department of Physics, National Taiwan Normal University, Taipei;

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原文格式 PDF
正文语种 eng
中图分类材料;
关键词
terahertz; confined acoustic phonons; type-II nanocrystals; piezoelectric nanocrystals;

机译：太赫兹;有限声子; II型纳米晶体;压电纳米晶体;

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专利

1. Resonance-enhanced dipolar interaction between terahertz photons and confined acoustic phonons in nanocrystals [J] . Tzu-Ming Liu, Ja-Yu Lu, Hung-Ping Chen, Applied Physicsletters . 2008,第9期

机译：太赫兹光子与纳米晶体中有限声子之间的共振增强偶极相互作用
2. Computing carrier interactions with confined and excluded phonons in nanostructures of complex geometries [J] . Kiselev AA., Stroscio MA., Kim KW. Physical Review, B. Condensed Matter . 1999,第15期

机译：在复杂几何结构的纳米结构中计算载流子与约束声子和排除声子的相互作用
3. Damping by bulk and shear viscosity of confined acoustic phonons for nanostructures in aqueous solution [J] . Saviot L, Netting CH, Murray DB The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2007,第25期

机译：水溶液中纳米结构的密闭声子的体积和剪切粘度阻尼
4. Resonant-enhanced dipolar interaction between THz-photons and confined acoustic phonons in nanostructures [C] . Tzu-Ming Liu, Ja-Yu Lu, Chung-Chiu Kuo, Conference on Ultrafast Phenomena in Semiconductors and Nanostructure Materials . 2008

机译：纳米结构中的谐振增强的Thz-光子和狭窄的声学子宫之间的偶极相互作用
5. Experimental investigation of acoustic phonon confinement effects in nanostructured materials. [D] . Kargar, Fariborz. 2016

机译：纳米结构材料中声子声子约束效应的实验研究。
6. Ultra-confined mid-infrared resonant phonon polaritons in van der Waals nanostructures [O] . Michele Tamagnone, Antonio Ambrosio, Kundan Chaudhary, 2018

机译：范德华纳米结构中的超限定中红外共振声子极化子
7. Resonance-enhanced dipolar interaction between terahertz photons and confined acoustic phonons in nanocrystals [O] . Tzu-Ming Liu 2014

机译：太赫兹光子与纳米晶体中有限声子之间的共振增强偶极相互作用
8. Electron Relaxation Times Due to the Deformation-Potential Interaction ofElectrons with Confined Acoustic Phonons in a Free-Standing Quantum Well [R] . Bannov, N., Aristov, V., Mitin, V., 1995

机译：自立式量子阱中电子与受限声学声子的变形 - 电位相互作用引起的电子弛豫时间

Resonant-enhanced dipolar interaction between THz-photons and confined acoustic phonons in nanostructures

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