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The Influence of Hydrostatic Pressure on the Binding Energy of Hydrogenic Impurity State in a Wurtzite Al_yGa_(1-y)N/Al_xGa_(1-x)N Parabolic Quantum Well

机译：静水压力对纤锌矿Al_-yGa_（1-y）N/Al_-xGa_（1-x）N抛物量子阱中类氢杂质态结合能的影响

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The influence of hydrostatic pressure on the binding energy of hydrogenic impurity state in a wurtzite Al_yGa_(1-y)N/Al_xGa_(1-x)N parabolic quantum well and GaN/Al_xGa_(1-x)N square quantum well are studied using the variational method. The ground-state binding energies are presented as the functions of hydrostatic pressure, well width, composition and impurity center position. The anisotropic properties of the parameters in the system, and the changes (dependence) of electron effective mass, the dielectric constant, band gap with pressure and coordinate are considered in the numerical calculations. The results show that the hydrostatic pressure has obvious influence on the binding energy. The binding energy increase slowly with increasing the hydrostatic pressure p and the composition x, while the binding energy decrease significantly with increasing the well width and the position of impurity center. It is seen that the changing trends of the binding energy as a function of well width, pressure and the composition in the Al_yGa_(1-y)N/Al_xGa_(1-x)N parabolic quantum well are basically the same with that in the GaN/AlxGai-xN square quantum well, but the changing trends of the binding energy as a function of impurity center position in the Al_yGa_(1-y)N/Al_xGa_(1-x)N parabolic quantum well are significantly greater than that in the GaN/Al_xGa_(1-x)N square quantum well.

机译：用变分法研究了静水压对纤锌矿Al_yGa_U1-y）N/Al_xGa_U1-x）N抛物量子阱和GaN/Al_xGa_U1-x）N方量子阱中类氢杂质态结合能的影响。给出了杂质的静水压力、基态的位置和束缚能。数值计算中考虑了系统参数的各向异性，以及电子有效质量、介电常数、带隙随压力和坐标的变化（依赖性）。结果表明，静水压力对结合能有明显的影响。结合能随流体静压p和组分x的增加而缓慢增加，而结合能随阱宽和杂质中心位置的增加而显著降低。可以看出，在Al_yGa_U1-y）N/Al_xGa_U1-x）N抛物线量子阱中，结合能随阱宽、压力和组成的变化趋势与GaN/AlxGai xN方形量子阱中的基本相同，但是，Al_-yGa_1-y）N/Al_-xGa_1-x）N抛物线量子阱的结合能随杂质中心位置的变化趋势明显大于GaN/Al_-xGa_1-x）N方形量子阱。

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《International Conference on Materials Science》|2019年|14-21|共8页
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Zhao Feng-Qi; Bo Zhao;
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Wurtzite parabolic quantum well; Hydrostatic pressure; Hydrogenic impurity state; Binding energy;

机译：纤锌矿抛物量子阱;静水压力;类氢杂质态;结合能;

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1. Simultaneous Effects of Hydrostatic Pressure and Conduction Band Non-parabolicity on Binding Energies and Diamagnetic Susceptibility of a Hydrogenic Impurity in Spherical Quantum Dots [J] . G. Rezaei, N.A. Doostimotlagh, B. Vaseghi 理论物理通讯（英文版） . 2011,第008期
2. Screening influence on the Stark effect of impurity states in strained wurtzite GaN/Al_xGa_(1-x)-N heterojunctions under pressure [J] . Zhang Min, Ban Shi-Liang 中国物理：英文版 . 2009,第012期
3. Pressure influence on the Stark effect of impurity states in a strained wurtzite GaN/Al_xGa_(1-x)N heterojunction [J] . Zhang Min, Ban Shi-Liang 中国物理：英文版 . 2009,第010期
4. Effects of an Intense Laser Field and Hydrostatic Pressure on the Intersubband Transitions and Binding Energy of Shallow Donor Impurities in a Quantum Well [J] . U. Yesilgul, F. Ungan, E. Kasapoglu, 中国物理快报：英文版 . 2011,第007期
5. Hydrostatic pressure and temperature effects on the binding energy and optical absorption of a multilayered quantum dot with a parabolic confinement [J] . Sami Ortakaya, Muharrem Kirak 中国物理：英文版 . 2016,第012期
6. Binding energies of shallow impurities in asymmetric strained wurtzite Al_xGa_(1-x)N/GaN/Al_yGa_(1-y)N quantum wells [J] . Ha Sihua, Ban Shiliang, Zhu Jun Journal of Semiconductors . 2011,第4期

机译：非对称应变纤锌矿型Al_xGa_（1-x）N / GaN / Al_yGa_（1-y）N量子阱中浅杂质的结合能
7. Temperature and hydrostatic pressure effects on the binding energy of magnetoexcitons bound to ionized-donor impurities in GaAs/Al_xGa_(1-x)As quantum wells [J] . J. J. Vivas-Moreno, J. R. Mejia-Salazar, N. Porras-Montenegro Journal of Applied Physics . 2011,第12期

机译：温度和静水压力对磁激子与GaAs / Al_xGa_（1-x）As量子阱中电离施主杂质结合的结合能的影响
8. External electric field, hydrostatic pressure and conduction band non-parabolicity effects on the binding energy and the diamagnetic susceptibility of a hydrogenic impurity quantum dot [J] . Rezaei G., Doostimotlagh N.A. Physica, E. Low-dimensional systems & nanostructures . 2012,第4期

机译：外部电场，静水压力和导带非抛物线形对氢杂质量子点的结合能和抗磁化率的影响
9. The Influence of Hydrostatic Pressure on the Binding Energy of Hydrogenic Impurity State in a Wurtzite Al_yGa_(1-y)N/Al_xGa_(1-x)N Parabolic Quantum Well [C] . Zhao Feng-Qi, Bo Zhao International Conference on Materials Science . 2020

机译：静压压力对湿钛酸盐杂质状态结合能的影响（1-y）n / Al_xga_（1-x）n抛物线量阱
10. Erratum to: Binding Energy and Spin-Orbit Splitting of a Hydrogenic Donor Impurity in AlGaN/GaN Triangle-Shaped Potential Quantum Well [O] . Jun Wang, Yan-Wu Lü, Xiang-Lin Liu, 2009

机译：勘误如下：AlGaN / GaN三角形电势量子阱中氢供体杂质的结合能和自旋轨道分裂
11. Binding energy of hydrogenic impurity states in an inverse parabolic quantum well under static external fields [O] . S. Baskoutas, A. F. Terzis 2009

机译：静态外场下逆抛物线量子阱中氢杂质态的结合能
12. Effect of Non-Parabolicity on the Binding Energy of a Hydrogenic Donor in Quantum Well with a Magnetic Field [R] . Jayakumar, K., Balasubramanian, S., Tomak, M. 1985

机译：非抛物性对量子阱中氢源供体结合能的影响

The Influence of Hydrostatic Pressure on the Binding Energy of Hydrogenic Impurity State in a Wurtzite Al_yGa_(1-y)N/Al_xGa_(1-x)N Parabolic Quantum Well

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