Finite carrier confinement and biexcitonic complexes in self-assembled inas quantum dots

机译：自组装inas量子点中的有限载流子限制和双激子配合物

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The luminescence properties of a single InAs self-assembled quantum dot (QD) are studied by confocal scanning optical microscopy at low temperature. The observation of single QDs has been accomplished by epitaxial growth of QDs samples with low QD density (less than one QD per #mu#m~2) required by the diffraction limited spatial resolution of the microscope. In thick QDs with large confinement energies biexciton binding energies of up to 5.0 meV are found, while in thin and more weakly confined QDs the electron wavefunction penetrates into the surrounding barriers causing reduced biexciton binding energies of less than 2.0 meV. This result can be understood in terms of theoretical calculations of biexcitonic complexes is QDs with finite potential barriers.

机译：通过共焦扫描光学显微镜在低温下研究了单个InAs自组装量子点（QD）的发光特性。单个QD的观察已经通过外延生长具有低QD密度（每＃mu＃m〜2小于一个QD）的QD样品完成，显微镜的衍射极限空间分辨率要求这样做。在具有大约束能量的厚量子点中，发现了高达5.0 meV的双激子结合能，而在较薄和较弱约束的量子点中，电子波函数渗透到周围的势垒中，导致小于2.0 meV的双激子结合能降低。从双激子复合物的理论计算可以理解该结果，即具有有限势垒的量子点。

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《Symposium on Self-Organized Processes in Semiconductor Alloys held November 29-December 2, 1999, Boston, Massachusetts, U.S.A.》|1999年|p.271-276|共6页
会议地点 Boston MA(US)
作者
A. Jaeger; T. Mankad; W. V. Schoenfeld; T. Lundstrom; P. M. Petroff;
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中图分类无线电电子学、电信技术;
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1. Improved quantum confinement of self-assembled high-density InAs quantum dot molecules in AlGaAs/GaAs quantum well structures by molecular beam epitaxy [J] . N. Chit Swe, O. Tangmattajittakul, S. Suraprapapich, Journal of Vacuum Science & Technology. B, Microelectronics and Nanometer Structures . 2008,第3期

机译：通过分子束外延改进AlGaAs / GaAs量子阱结构中自组装高密度InAs量子点分子的量子限制
2. Electronic structure of self-assembled InAs/InP quantum dots: Comparison with self-assembled InAs/GaAs quantum dots [J] . Ming Gong, Kaimin Duan, Chuan-Feng Li, Physical review. B, Condensed Matter And Materials Physics . 2008,第4期

机译：自组装InAs / InP量子点的电子结构：与自组装InAs / GaAs量子点的比较
3. Photoexcited carrier diffusion in self-assembled InAs/GaAs quantum dots with different dot densities [J] . Monte AFG., de Sales FV., da Silva SW., Physica, E. Low-dimensional systems & nanostructures . 2003,第1a4期

机译：具有不同点密度的自组装InAs / GaAs量子点中的光激发载流子扩散
4. Finite carrier confinement and biexcitonic complexes in self-assembled InAs quantum dots [C] . T. Lundstrom, A. Jaeger, T. Mankad, Symposium on self-organized processes in semiconductor alloys . 2000

机译：自组装INAS量子点中有限载体限制和Biexcitonic复合物
5. Ultrafast carrier dynamics in semiconductor self-assembled quantum dots in the low carrier density regime. [D] . Urayama, Junji. 2002

机译：在低载流子密度状态下，半导体自组装量子点中的超快载流子动力学。
6. Theoretical study of strain-dependent optical absorption in a doped self-assembled InAs/InGaAs/GaAs/AlGaAs quantum dot [O] . Tarek A Ameen, Hesameddin Ilatikhameneh, Archana Tankasala, 2018

机译：掺杂的自组装InAs / InGaAs / GaAs / AlGaAs量子点中应变相关的光吸收的理论研究
7. Electronic structure of self-assembled InAs/InP quantum dots: A Comparison with self-assembled InAs/GaAs quantum dots [O] . Gong, Ming, Duan, Kaimin, Li, Chuan-Feng, 2007

机译：自组装Inas / Inp量子点的电子结构：a 与自组装Inas / Gaas量子点的比较
8. Formation of the Charged Exciton Complexes in Self-Assembled InAs Single Quantum Dots. [R] . Moskalenko, E. S., Karlsson, K. F., Holtz, P. O., 2001

机译：在自组装Inas单量子点中形成带电激子复合物。

Finite carrier confinement and biexcitonic complexes in self-assembled inas quantum dots

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