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量子点自组织生长
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  “量子点自组织生长”译为未确定词的双语例句
     The primary principle of self-organized growth about semiconductor quantum dots is presented. Some properties, such as exciton binding energy, carrier dynamics, arrangement, and optical properties are also included.
     阐述了半导体量子点自组织生长方法的基本原理,并介绍了半导体量子点的一些特性,如激子束缚能、载流子动力学、排列规则和光学性质。
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     When the amount of boron atoms is 0.2 ML, uniform Ge QDs are achieved with the average base diameter 60nm and area\|density 6×10 9 cm -2 . In addition, the mechanism is also discussed about the boron atoms on the growth of Ge QDs.
     当硼原子的数量为 0 .2单原子层时 ,获得了底部直径为 60± 5nm,面密度为 6× 1 0 9cm- 2 ,且均匀性很好的 Ge量子点 . 另外 ,还简单讨论了硼原子对 Ge量子点自组织生长影响的机制 .
短句来源
     This paper introduces ultimate principles of self organized growth of nanometer quantum dots, self organized growth mechanism of various quantum dots, and their photoluminescence properties.
     文中主要介绍了量子点自组织生长的基本原理、几种不同类型量子点的自组织生长及其光致发光特性。
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  相似匹配句对
     Self-organized Growth of Nanometer Quantum Dot Structures
     纳米量子结构的组织生长
短句来源
     Self-Organized Growth of Ge Quantum Dots by UHV/CVD
     超高真空化学气相淀积组织生长量子(英文)
短句来源
     Photoluminescence of Self-assembled Grown ZnCdSe-ZnSe Quantum Dot Structure
     组织生长ZnCdSe-ZnSe量子结构的光致发光
     Electronic Proprety of Self Organized Grown InAs Quantum Dots Superlattice
     InAs组织生长量子超晶格的电学性质
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     Temperature Behavior of Exciton Emission in Self-Organized InAs Quantum Dots
     组织生长InAs量子发光的温度特性
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  self-assembled quantum dot
Magnetic-field-induced Fermi-edge singularity in the tunneling current through an InAs self-assembled quantum dot
      
It is demonstrated that the microphotoluminescence (μPL) spectrum of a single InAs/GaAs self-assembled quantum dot (QD) undergoes considerable changes when the primary laser excitation is complemented with an additional infrared laser.
      
Optical and morphological properties of InGaAs/AlGaAs self-assembled quantum dot nanostructures for 980 nm room temperature emis
      
That time can be regarded as the lower limit for decoherence for optically driven quantum gates employing self-assembled quantum dot structures.
      
The results show that a multi-stacked active region is very necessary to obtain a low threshold current for self-assembled quantum dot lasers.
      
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\ The methods of self-organized growth and selective growth on a patterned mask for semiconductor quantum wires and quantum dots are described. The advantages and problems inherent in quantum wire and dot lasers are discussed, and it is indicated that the size fluctuation is the main obstacle for realizing quantum wire and dot lasers.

介绍了半导体量子线、量子点的自组织生长法和掩膜表面选择局部生长法,讨论了量子线、量子点激光器的优点以及遇到的问题,指出了大小均匀性是实现量子线、量子点激光器的主要障碍.

The self organized growth of semiconductor quantum dots are spontaneous quantum dot structures formed by Stranki Krastanov growth mode. In general, the formed semiconductor quantum dots are lattice mismatched systems with substrate materials, and they have certan size, shape and density. This paper introduces ultimate principles of self organized growth on semiconductor quantum dots, self organized growth machnism on various quantum dots, optical properties and its applications in photoelectronic...

The self organized growth of semiconductor quantum dots are spontaneous quantum dot structures formed by Stranki Krastanov growth mode. In general, the formed semiconductor quantum dots are lattice mismatched systems with substrate materials, and they have certan size, shape and density. This paper introduces ultimate principles of self organized growth on semiconductor quantum dots, self organized growth machnism on various quantum dots, optical properties and its applications in photoelectronic devices.

所谓半导体量子点的自组织生长,是指具有较大晶格失配度的两种材料,依靠自身的应变能量,并以 Stranki Krastanov( S K) 生长模式,在衬底表面上形成的具有一定形状、尺寸和密度分布的自然量子点结构。本文主要介绍了纳米量子点的自组织生长,自组织生长量子点的发光特性及其在光电器件中的应用。

The primary principle of self-organized growth about semiconductor quantum dots is presented. Some properties, such as exciton binding energy, carrier dynamics, arrangement, and optical properties are also included.

阐述了半导体量子点自组织生长方法的基本原理,并介绍了半导体量子点的一些特性,如激子束缚能、载流子动力学、排列规则和光学性质。

 
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