二维耗散隧道效应对外部电场中相互作用量子点复合辐射光谱的影响

IF 1.1 4区 物理与天体物理 Q4 PHYSICS, APPLIED Technical Physics Pub Date : 2023-08-19 DOI:10.1134/S1063784223020056
V. D. Krevchik, A. V. Razumov, M. B. Semenov
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引用次数: 0

摘要

量子点具有独特的光学特性,广泛应用于光电子学、生物学和医学等领域。控制量子点的光谱和发光特性的问题引发了对量子点相互作用以及与周围矩阵相互作用机制的研究。在一定条件下,这种相互作用可以显著地改变量子点的辐射特性,这将影响激光结构和基于它们的生物传感器的特性。本工作的目的是理论研究“量子点包围矩阵”系统中的二维耗散隧道效应,以及量子点与a + + e杂质配合物的对静电相互作用,以及电子在外电场下从量子点基态到准稳态a +态的光学跃迁对复合辐射的影响。在绝热近似的框架内考虑了处于QD基态的电子与定位于a +中心的空穴之间的相互作用。在有效质量近似的零范围势模型下,得到了球对称量子点中a++ e杂质络合物中空穴结合能随外电场和耗散隧穿参数变化的色散方程。用偶极子近似计算了外电场下含有a++ e杂质配合物的量子点中复合辐射(SIRR)的光谱强度。在二阶微扰理论中考虑了电场对量子点中电子基态的影响。利用Mathcad 14和Wolfram Mathematica 9的符号数学,对基于InSb的半导体量子点进行了数值计算和绘图。考虑到与环境介质(或热浴)声子模式的线性相互作用,在一瞬半经典近似下,以指数精度计算了有限温度下二维振荡势模型的二维耗散隧穿概率。结果表明,准稳态A+态结合能的场依赖性具有振荡特征,与平行二维隧穿转移过程中发生的量子拍有关。研究发现,当相互作用的量子点对的隧穿机制由同步转变为异步时,SIRR曲线具有与二维分岔点对应的特征扭结。已经确定,在二维分岔点附近,SIRR中存在与量子拍模相关的不规则振荡,在此过程中出现了相互竞争的隧穿轨迹。研究发现,温度、声子模式频率、与接触介质的相互作用常数、量子点相互作用常数等耗散隧道参数对量子拍打幅值和二维分岔点的位置有显著影响。考虑到量子点与周围矩阵的相互作用会导致SIRR的显著改变,这表现为依赖于耗散隧道参数的分岔点和量子拍的形式。考虑到a++ e配合物中量子点之间通过空穴斥力的成对相互作用,随着相互作用常数的增加,复合辐射被抑制。
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The Effects of 2D Dissipative Tunneling for the Recombination Radiation Spectra of Interacting Quantum Dots in an External Electric Field

Quantum dots (QDs) have unique optical properties that are widely used in optoelectronics, biology, and medicine. The problem of controlling the spectral and luminescent properties of QDs has initiated studies of the mechanisms by which QDs interact with each other and with the surrounding matrix. Such interactions can, under certain conditions, significantly modify the radiative properties of QDs, which will affect the characteristics of laser structures and biosensors based on them. The aim of this work is a theoretical study of the 2D dissipative tunneling effect in the “QD–surrounding matrix” system, as well as the pair electrostatic interaction of QDs with A+ +  e impurity complexes, on recombination radiation associated with the optical transition of an electron from the QD ground state to the quasi-stationary A+ state in an external electric field. The interaction of an electron, which is in the ground state of a QD, and a hole that is localized at the A+ center has been considered within the framework of the adiabatic approximation. The dispersion equations that determine dependence of the hole binding energy in the A+ + e impurity complex in a spherically symmetric QD on the external electric field and dissipative tunneling parameters have been obtained within the zero range potential model, in the effective mass approximation. Calculation of the spectral intensity of recombination radiation (SIRR) in QDs with an A++e impurity complex in an external electric field has been performed in the dipole approximation. Influence of the electric field on the ground state of an electron in a QD has been taken into account in the second order of the perturbation theory. Numerical calculations and plotting were carried out for a semiconductor quantum dot based on InSb using the symbolic mathematics of Mathcad 14 and Wolfram Mathematica 9. The 2D dissipative tunneling probability has been calculated with exponential accuracy for the 2D oscillatory potential model at a finite temperature, taking into account the linear interaction with the phonon modes of the environment media (or a heat bath) in the one-instanton semiclassical approximation. It is shown that the field dependence of the binding energy for the quasi-stationary A+ state has an oscillating character, associated with quantum beats that occur during parallel 2D tunneling transfer. It is found that the SIRR curves have a characteristic kink corresponding to the 2D bifurcation point that occurs when the tunneling regimes in the interacting pair of QDs change from synchronous to asynchronous. It has been established that, in the vicinity of the 2D bifurcation point, there are irregular oscillations in the SIRR associated with the modes of quantum beats, in the course of which competing trajectories of tunneling appear. It is found that the parameters of dissipative tunneling—the temperature, frequency of the phonon mode, constant of interaction with the contact medium, constant of the QDs interaction—have a significant effect on the amplitude of quantum beats and the position of the 2D bifurcation point in the SIRR. Taking into account the interaction of the QD with the surrounding matrix leads to a significant modification of the SIRR, which manifests itself in the form of bifurcation points and quantum beats that depend on the dissipative tunneling parameters. Accounting for the pairwise interaction of QDs with each other via hole repulsion in A+ +  e complexes leads to suppression of recombination radiation with an increase in the interaction constant.

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来源期刊
Technical Physics
Technical Physics 物理-物理:应用
CiteScore
1.30
自引率
14.30%
发文量
139
审稿时长
3-6 weeks
期刊介绍: Technical Physics is a journal that contains practical information on all aspects of applied physics, especially instrumentation and measurement techniques. Particular emphasis is put on plasma physics and related fields such as studies of charged particles in electromagnetic fields, synchrotron radiation, electron and ion beams, gas lasers and discharges. Other journal topics are the properties of condensed matter, including semiconductors, superconductors, gases, liquids, and different materials.
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