Quantifying spectral diffusion by the direct measurement of the correlation function for excitons in semiconductor quantum wells

Singh Rohan; Moody Galan; Siemens Mark E.; Li Hebin; Cundiff Steven T.

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Quantifying spectral diffusion by the direct measurement of the correlation function for excitons in semiconductor quantum wells

机译：通过直接测量半导体量子阱中激子的相关函数来量化光谱扩散

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The phenomenon of spectral diffusion is common to a variety of inhomogeneously broadened systems. Spectral diffusion can be quantified through the frequency-frequency correlation function (FFCF), which is often approximated using observables from a variety of experimental techniques. We present a direct measurement of the temperature-dependent FFCF for excitons in semiconductor quantum wells using two-dimensional coherent spectroscopy. This technique enables the FFCF to be quantified without making any assumptions of the FFCF dynamics. Our results show that the Gauss-Markov approximation, which assumes exponential decay dynamics of the FFCF, is only valid for sample temperatures above 50 K. We compare our results with those obtained by the ellipticity and center-line slope measurements. (C) 2016 Optical Society of America

机译：光谱扩散现象是各种不均匀加宽的系统所共有的。频谱扩散可以通过频率-频率相关函数（FFCF）进行量化，该函数通常使用各种实验技术的观测值进行近似。我们目前使用二维相干光谱法直接测量半导体量子阱中激子的温度依赖性FFCF。该技术无需对FFCF动态进行任何假设就可以量化FFCF。我们的结果表明，假设FFCF的指数衰减动力学的高斯-马尔可夫近似仅对高于50 K的样品温度有效。我们将我们的结果与通过椭圆率和中心线斜率测量获得的结果进行比较。（C）2016美国眼镜学会

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《Journal of the Optical Society of America, B. Optical Physics》 |2016年第7期|共7页
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Singh Rohan; Moody Galan; Siemens Mark E.; Li Hebin; Cundiff Steven T.;
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1. Quantifying spectral diffusion by the direct measurement of the correlation function for excitons in semiconductor quantum wells [J] . Singh Rohan, Moody Galan, Siemens Mark E., Journal of the Optical Society of America, B. Optical Physics . 2016,第7期

机译：通过直接测量半导体量子阱中激子的相关函数来量化光谱扩散
2. Influence of the phonon-exciton interaction on exciton-exciton quantum correlation in semiconductor microcavities [J] . S. Portolan, O. Di Stefano, S. Savasta, Physica Status Solidi. C, Conferences and critical reviews . 2006,第7期

机译：声子-激子相互作用对半导体微腔中激子-激子量子相关性的影响
3. Effects of optical interference and energy transfer on exciton diffusion length measurements in organic semiconductors [J] . Shawn R. Scully, Michael D. McGehee Journal of Applied Physics . 2006,第3期

机译：光学干扰和能量转移对有机半导体中激子扩散长度测量的影响
4. Differential measurements of interband and intersubband coherence and exciton-exciton correlations in quantum wells [C] . Hawkins, S.A., Stevens, . 2000

机译：量子阱中带间和子带间相干性与激子-激子相关的差分测量
5. Direct creation of quantum well excitons and microcavity exciton polaritons by resonant tunneling and phonon emission: Fundamental physics and device applications. [D] . Klimovitch, Gleb Vladimirovich. 1999

机译：通过共振隧穿和声子发射直接创建量子阱激子和微腔激子极化子：基础物理学和器件应用。
6. Directvs Delayed Triplet Energy Transfer from OrganicSemiconductors to Quantum Dots and Implications for Luminescent Harvestingof Triplet Excitons [O] . Victor Gray, Jesse R. Allardice, Zhilong Zhang, -1

机译：直接vs延迟的三重态有机物能量转移半导体的量子点及其对发光收集的意义三重态激子
7. Direct Measurement of the Triplet Exciton Diffusion Length in Organic Semiconductors [O] . Mikhnenko Oleksandr V., Ruiter Roald, Blom Paul W. M., 2012

机译：直接测量有机半导体中三重态激子的扩散长度
8. Generalized Diffusion, Mobility, and the Velocity Autocorrelation Function for High-Field Transport in Semiconductors [R] . Ferry, D. K., Barker, J. R. 1980

机译：半导体中高场输运的广义扩散，迁移率和速度自相关函数

Quantifying spectral diffusion by the direct measurement of the correlation function for excitons in semiconductor quantum wells

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