Thermal creation of electron spin polarization in n-type silicon

Andre Dankert; Saroj P. Dash

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Thermal creation of electron spin polarization in n-type silicon

机译：在n型硅中热产生电子自旋极化

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Conversion of heat into a spin-current in electron doped silicon can offer a promising path for spin-caloritronics. Here, we create an electron spin polarization in the conduction band of n-type silicon by producing a temperature gradient across a ferromagnetic tunnel contact. The substrate heating experiments induce a large spin signal of 95 μV, corresponding to 0.54 meV spin-splitting in the conduction band of n-type silicon by Seebeck spin tunneling mechanism. The thermal origin of the spin injection has been confirmed by the quadratic scaling of the spin signal with the Joule heating current and linear dependence with the heating power.

机译：在掺杂电子的硅中将热量转化为自旋电流可以为自旋量热电子学提供一条有希望的途径。在这里，我们通过在铁磁隧道接触上产生温度梯度，在n型硅的导带中产生电子自旋极化。衬底加热实验产生了95μV的大自旋信号，相当于通过Seebeck自旋隧穿机制在n型硅的导带中自旋分裂的0.54 meV。自旋注入的热起源已经通过自旋信号与焦耳加热电流的二次缩放以及与加热功率的线性相关性得到确认。

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来源
《Applied Physics Letters》 |2013年第24期|242405.1-242405.5|共5页
作者
Andre Dankert; Saroj P. Dash;
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作者单位

Department of Microtechnology and Nanoscience, Chalmers University of Technology, SE-41296 Goeteborg, Sweden;

Department of Microtechnology and Nanoscience, Chalmers University of Technology, SE-41296 Goeteborg, Sweden;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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1. Thermal creation of electron spin polarization in n-type silicon [J] . Dankert Andre, Dash Saroj P. Applied Physics Letters . 2013,第24期

机译：在n型硅中热产生电子自旋极化
2. TEMPERATURE DEPENDENCE OF SPIN DEPOLARIZATION OF DRIFTING ELECTRONS IN n-TYPE GaAs BULKS [J] . S. SPEZIA, D. PERSANO ADORNO, N. PIZZOLATO, Acta Physica Polonica . 2010,第5期

机译：n型GaAs体中漂移电子的自旋去极化的温度依赖性
3. Temperature Dependence of Spin Depolarization of Drifting Electrons in n-Type GaAs Bulks [J] . S. Spezia, D. Persano Adorno, N. Pizzolato, Acta physica Polonica, B. Particle Physics and Field Theory, Nuclear Physics, Theory of Relativity . 2010,第5期

机译：n型GaAs体中漂移电子的自旋去极化的温度依赖性
4. Spins in silicon MOSFETs: electron spin relaxation and hyperpolarization of nuclear spins [C] . C. C. Lo, C. D. Weis, J. van Tol, Spintronics symposium . 2013

机译：硅MOSFET中的自旋：电子自旋弛豫和核自旋的超极化
5. Optical Hyperpolarization and Detection of Electron and Nuclear Spins of Phosphorus Donors in Highly Enriched Silicon-28 [D] . Yang, Albion 2010

机译：高富集硅-28中磷供体的光超极化和电子和核旋转的检测
6. Old Molecule New Chemistry: Exploring Silicon Phthalocyanines as Emerging N-Type Materials in Organic Electronics [O] . Nathan J. Yutronkie, Trevor M. Grant, Owen A. Melville, 2019

机译：旧分子新化学：探索酞菁硅作为有机电子中新兴的N型材料
7. Thermal Creation of Electron Spin Polarization in n-Type Silicon [O] . André Dankert, Saroj P. Dash 2016

机译：n型硅中电子自旋极化的热产生
8. Tables of Scattering Amplitudes and Spin Polarizations of 25, 50, 75, 150, 175, 200, 300, 400, 600, 800 Electron Volt Electrons Scattered Elastically from Beryllium, Nitrogen, Oxygen, Aluminum, Chlorine, Vanadium, Cobalt, Copper, Arsenic, Niobium, Silver, Tin, Antimony, Iodine, and Tantalum-II [R] . Fink, M., Yates, A. C. 1971

机译：散射振幅的表和自旋的极化特性25，50，75，150，175，200，300，400，600，800层电子伏的电子从铍，氮，氧，铝，氯，钒，钴，铜，砷弹性散射，铌，银，锡，锑，碘和钽-II

Thermal creation of electron spin polarization in n-type silicon

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