Spin Relaxation by Transient Monopolar and Bipolar Optical Orientation

B.N. Murdin; K. Litvinenko; D.G. Clarke; C. R. Pidgeon; P. Murzyn; P. J. Phillips; D. Carder; G. Berden; B. Redlich; A. F. G. van der Meer; S. Clowes; J. J. Harris; L. F. Cohen; T. Ashley; L. Buckle

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Spin Relaxation by Transient Monopolar and Bipolar Optical Orientation

机译：瞬态单极性和双极性光学取向的自旋弛豫

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We have used two-color time-resolved spectroscopy to measure the relaxation of electron spin polarizations in a bulk semiconductor. The circularly polarized pump beam induces a polarization either by direct excitation from the valence band, or by free-carrier (Drude) absorption when tuned to an energy below the band gap. We find that the spin relaxation time, measured with picosecond time resolution by resonant induced Faraday rotation in both cases, increases in the presence of photogenerated holes. In the case of the material chosen, n-InSb, the increase was from 14 to 38 ps.

机译：我们已经使用了两种颜色的时间分辨光谱来测量体半导体中电子自旋极化的弛豫。圆偏振泵浦光束通过价带的直接激发或当被调谐到带隙以下的能量时通过自由载流子（德鲁德）吸收而引起极化。我们发现，在两种情况下，通过共振诱导的法拉第旋转，以皮秒时间分辨率测量的自旋弛豫时间在存在光生空穴的情况下会增加。对于选定的材料n-InSb，增加幅度为14 ps至38 ps。

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《Physical review letters》 |2006年第9期|p.096603.1-096603.4|共4页
作者
B.N. Murdin; K. Litvinenko; D.G. Clarke; C. R. Pidgeon; P. Murzyn; P. J. Phillips; D. Carder; G. Berden; B. Redlich; A. F. G. van der Meer; S. Clowes; J. J. Harris; L. F. Cohen; T. Ashley; L. Buckle;
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Advanced Technology Institute, University of Surrey, Guildford GU2 7XH, United Kingdom;

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正文语种 eng
中图分类物理学;
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spin relaxation and scattering; optical creation of spin polarized carriers; time-resolved optical spectroscopies and other ultrafast optical measurements in condensed matter;

机译：自旋弛豫和散射;自旋极化载流子的光学产生;时间分辨光谱学和凝聚态物质的其他超快光学测量;

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专利

1. Monopolar optical orientation of electron spins in bulk semiconductors and heterostructures [J] . Ivchenko EL, Tarasenko SA Journal of Experimental and Theoretical Physics . 2004,第2期

机译：体半导体和异质结构中电子自旋的单极光学取向
2. Specific features of optical orientation and relaxation of electron spins in quantum wells with a large spin splitting [J] . Averkiev NS, Glazov MM Semiconductors . 2008,第8期

机译：具有大自旋分裂的量子阱中光学取向和电子自旋弛豫的特定特征
3. Optical orientation of electron spins and their relaxation mechanism in n-type GaAs [J] . MI Miah, A Staff Bangladesh Journal of Scientific and Industrial Research . 2013,第2期

机译：n型GaAs中电子自旋的光学取向及其弛豫机理
4. Monopolar Spin Orientation and Determination of Spin Relaxation Times in Quantum Well Structures [C] . Sergey D. Gauichev, Sergey N. Danilov, Martin Sollinger, Spintronics . 2002

机译：量子阱结构中的单极自旋取向和自旋弛豫时间的确定
5. Optical transient-grating measurements of spin diffusion and relaxation in a two-dimensional electron gas. [D] . Weber, Christopher Phillip. 2005

机译：二维电子气中自旋扩散和弛豫的光学瞬态光栅测量。
6. Monopolar and dipolar relaxation in spin ice Ho2Ti2O7 [O] . Yishu Wang, T. Reeder, Y. Karaki, 2021

机译：旋转冰Hoo2Ti2O7中的单极和偶极放松
7. Spin relaxation by transient monopolar and bipolar optical orientation [O] . Murdin, B. N., Litvinenko, K., Clarke, D. G., 2006

机译：通过瞬态单极和双极光学取向实现自旋弛豫
8. Status Report. Spin Lattice Relaxation, Nuclear Orientation, and Microwaive Resonance and Relaxation [R] . Sapp, R. C. 1964

机译：状况报告。旋转晶格弛豫，核取向和微观共振和松弛

Spin Relaxation by Transient Monopolar and Bipolar Optical Orientation

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