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Many-Body Effects on Optical Carrier Cooling in Intrinsic Semiconductors at Low Lattice Temperatures; Journal article

机译：低晶格温度下本征半导体中光载流子冷却的多体效应;杂志文章

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Based on the coupled density and energy balance equations, a dynamical model is proposed for exploring many-body effects on optical carrier cooling not lattice cooling in steady state in comparison with the earlier findings of current-driven carrier cooling in doped semiconductors X. L. Lei and C. S. Ting, Phys. Rev. B 32, 1112 1985 and tunneling-driven carrier cooling through discrete levels of a quantum dot H. L. Edwards et al., Phys. Rev. B 52, 5714 1995 . This dynamical carrier-cooling process is mediated by a photoinduced nonthermal electron-hole composite plasma in an intrinsic semiconductor under a thermal contact with a low-temperature external heat bath, which is a generalization of the previous theory for a thermal electron-hole plasma H. Haug and S. Schmitt-Rink, J. Opt. Soc. Am. B 2, 1135 1985 . The important roles played by the many-body effects such as band-gap renormalization, screening, and excitonic interaction are fully included and analyzed by calculating the optical-absorption coefficient, spontaneous emission spectrum, and thermalenergy exchange through carrier-phonon scattering. Both the optical carrier cooling and heating are found with increasing pump-laser intensity when the laser photon energy is set below and above the band gap of an intrinsic semiconductor. In addition, the switching from carrier cooling to carrier heating is predicted when the frequency detuning of a pump laser changes from below the band gap to above the band gap.

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作者
Huang, D.; Alsing, P. M.;
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年度 2008
页码 p.1-9
总页数 9
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Semiconductors; Reprints; Optical properties; Low temperature; Plasmas(Physics); Band gaps; Cooling; Excitons; N body problem; Thermal properties; Emission spectra;

机译：半导体;重印;光学特性;低温;等离子体（物理）;带隙;冷却;激子; N体问题;热性质;发射光谱;

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1. Many-body effects on optical carrier cooling in intrinsic semiconductors at low lattice temperatures [J] . Danhong Huang, P. M. Alsing Physical review . 2008,第3期

机译：低晶格温度对本征半导体中光载流子冷却的多体效应
2. Temperature and magnetization-dependent band-gap renormalization and optical many-body effects in diluted magnetic semiconductors [J] . Ying Zhang, S. Das Sarma Physical review. B, Condensed Matter And Materials Physics . 2005,第12期

机译：稀磁半导体中温度和磁化强度相关的带隙重归一化和光学多体效应
3. Effect of screening on the carrier transport in semiconductors at low lattice temperatures [J] . S.N.Patra, D.P.Bhattacharya The journal of physics and chemistry of solids . 1997,第5期

机译：低晶格温度下屏蔽对半导体中载流子传输的影响
4. Cooling effects of field emission from semiconductors at high temperatures [C] . Chung Moon S., Mayer Alexander, Weiss Brock L., 2011 24th International Vacuum Nanoelectronics Conference . 2011

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5. All-optical polarization switching techniques based on the coherent many-body interactions and the virtual excitation of spin-polarized carriers in semiconductor quantum wells. [D] . Gansen, Eric John. 2004

机译：基于相干多体相互作用和半导体量子阱中自旋极化的载流子的虚拟激发的全光极化切换技术。
6. Graphene a material for high temperature devices – intrinsic carrier density carrier drift velocity and lattice energy [O] . Yan Yin, Zengguang Cheng, Li Wang, -1

机译：石墨烯一种用于高温器件的材料–固有载流子密度载流子漂移速度和晶格能
7. Temperature and magnetization-dependent band-gap renormalization and optical many-body effects in diluted magnetic semiconductors [O] . Zhang, Ying, Sarma, S. Das 2005

机译：温度和磁化依赖带隙重整化和稀磁半导体中的光学多体效应

Many-Body Effects on Optical Carrier Cooling in Intrinsic Semiconductors at Low Lattice Temperatures; Journal article

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