The hot carrier temperature and the impurity band in Kane's theory for heavily doped semiconductor photoluminescence analysis

Fonthal G.; Quintero J.; Piraquive N.; Ariza-Calderon H.; Tobon LE.

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The hot carrier temperature and the impurity band in Kane's theory for heavily doped semiconductor photoluminescence analysis

机译：凯恩理论中重载半导体光致发光分析中的热载流子温度和杂质带

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We analyzed the photoluminescence (PL) spectra on heavily doped GaAs:Sn samples by Kane's theory including a Lorentzian, a Gaussian and the hot carrier temperature. The band gap, the Fermi level, and the Urbach tail were the fitting parameters. Good results were obtained when the theoretical and experimental values were compared for the three parameters. The Urbach energy magnitude and the topological disorder parameter increased when the impurity concentration augment. The average phononic participation was very close with the tabulated values. New information about a shoulder in the high energy side was obtained, too. [References: 15]

机译：我们通过凯恩理论（包括洛仑兹，高斯和热载流子温度）分析了重掺杂GaAs：Sn样品的光致发光（PL）光谱。带隙，费米能级和Urbach尾巴是拟合参数。比较这三个参数的理论值和实验值，可获得良好的结果。当杂质浓度增加时，Urbach能级和拓扑障碍参数增加。平均声子参与度与列表值非常接近。还获得了有关高能量一侧肩膀的新信息。 [参考：15]

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《Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics》 |2001年第19期|共4页
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Fonthal G.; Quintero J.; Piraquive N.; Ariza-Calderon H.; Tobon LE.;
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1. The hot carrier temperature and the impurity band in Kane's theory for heavily doped semiconductor photoluminescence analysis [J] . Fonthal G., Quintero J., Piraquive N., Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2001,第17a19期

机译：凯恩理论中重载半导体光致发光分析中的热载流子温度和杂质带
2. Realization of a heavily doped and fully compensated semiconductor state in a crystalline semiconductor with a deep impurity band [J] . M. I. Daunov, I. K. Kamilov, A. B. Magomedov Journal of Experimental and Theoretical Physics . 1997,第2期

机译：在具有深杂质带的晶体半导体中实现重掺杂和完全补偿的半导体状态
3. Erratum: Realization of a heavily doped and fully compensated semiconductor state in a crystalline semiconductor with a deep impurity band [JETP 84, 309–316 (February 1997)] [J] . M. I. Daunov, I. K. Kamilov, A. B. Magomedov Journal of Experimental and Theoretical Physics . 1997,第6期

机译：勘误：在具有深杂质带的晶体半导体中实现重掺杂和完全补偿的半导体状态[JETP 84，309–316（1997年2月）]
4. Low-temperature photoluminescence characterization of impurity-doped GaAs and silicides prepared by molecular beam epitaxy high-energy ion implantation and combined ion-beam and molecular beam epi [C] . Yunosuke Makita, Electrotechnical Lab., Ibaraki, Optical Characterization Techniques for High-Performance Microelectronic Device Manufacturing III . 1996

机译：分子束外延高能离子注入并结合离子束和分子束epi制备的掺杂GaAs和硅化物的低温光致发光特性
5. Photoluminescence and Electrical Properties of Impurity-doped ZnSe Layers Grown by Molecular Beam Epitaxy利用統計を見る [D] . Ohkawa Kazuhiro 1992

机译：分子束外延生长掺杂杂质的ZnSe层的光致发光和电学性质
6. Anti-Stokes photoluminescence probing k-conservation and thermalization of minority carriers in degenerately doped semiconductors [O] . K. Mergenthaler, N. Anttu, N. Vainorius, -1

机译：反斯托克斯光致发光探测简并掺杂半导体中少数载流子的k守恒和热化
7. Below bulk-band-gap photoluminescence at room temperature from heavily P- and B-doped Si nanocrystals [O] . Fujii Minoru, Toshikiyo Kimiaki, Takase Yuji, 2003

机译：在室温下，重掺杂P和B的Si纳米晶体的带隙光致发光以下
8. Using Time-Resolved Photoluminescence to Measure the Excitation and Temperature Dependence of Carrier Relaxation in Mid-Wave Infrared Semiconductors [R] . Cumblidge, K. 2004

机译：利用时间分辨光致发光测量中波红外半导体中载流子弛豫的激发和温度依赖性

The hot carrier temperature and the impurity band in Kane's theory for heavily doped semiconductor photoluminescence analysis

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