Wide bandgap GaN-based semiconductors for spintronics [Review]

Pearton SJ.; Abernathy CR.; Thaler GT.; Frazier RM.; Norton DP.; Ren F. Park YD.; Zavada JM.; Buyanova A.; Chen WM.; Hebard AF.

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Wide bandgap GaN-based semiconductors for spintronics [Review]

机译：自旋电子学的宽带隙GaN基半导体[综述]

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Recent results on achieving ferromagnetism in transition-metal-doped GaN, A1N and related materials are discussed. The field of semiconductor spintronics seeks to exploit the spin of charge carriers in new generations of transistors, lasers and integrated magnetic sensors. There is strong potential for new classes of ultra-low-power, high speed memory, logic and photonic devices based on spintronics. The utility of such devices depends on the availability of materials with practical magnetic ordering temperatures and most theories predict that the Curie temperature will be a strong function of bandgap. We discuss the current state-of-the-art in producing room temperature ferromagnetism in GaN-based materials, the origins of the magnetism and its potential applications. [References: 81]

机译：讨论了在过渡金属掺杂的GaN，AlN和相关材料中实现铁磁性的最新结果。半导体自旋电子学领域寻求在新一代晶体管，激光器和集成磁传感器中利用电荷载流子的自旋。基于自旋电子学的新型超低功耗，高速存储器，逻辑和光子器件具有强大的潜力。此类设备的实用性取决于具有实用磁序温度的材料的可用性，并且大多数理论预测居里温度将是带隙的重要函数。我们讨论了在GaN基材料中产生室温铁磁性的最新技术，磁性的起源及其潜在应用。 [参考：81]

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《Journal of Physics. Condensed Matter》 |2004年第7期|共37页
作者
Pearton SJ.; Abernathy CR.; Thaler GT.; Frazier RM.; Norton DP.; Ren F. Park YD.; Zavada JM.; Buyanova A.; Chen WM.; Hebard AF.;
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正文语种 eng
中图分类物理学;
关键词
Molecular-beam-epitaxy; Diluted magnetic semiconductor; Electrical spin injection; Room-temperature ferromagnetism; Light-emitting-diodes; P-type gan; Mn-implanted gan; Thin-films; Structural-properties; Quantum-wells;

机译：分子束外延;稀磁半导体;电自旋注入;室温铁磁性;发光二极管;P型gan;锰注入的gan;薄膜;结构性能;量子阱;

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专利

1. Wide bandgap GaN-based semiconductors for spintronics [Review] [J] . Pearton SJ., Abernathy CR., Thaler GT., Journal of Physics. Condensed Matter . 2004,第7期

机译：自旋电子学的宽带隙GaN基半导体[综述]
2. Lanthanide impurities in wide bandgap semiconductors: A possible roadmap for spintronic devices [J] . G. Caroena, W. V. M. Machado, J. F. Justo, Applied Physics Letters . 2013,第6期

机译：宽带隙半导体中的镧系元素杂质：自旋电子器件的可能路线图
3. Raman studies on spintronics materials based on wide bandgap semiconductors [J] . Harima H Journal of Physics. Condensed Matter . 2004,第48期

机译：拉曼研究基于宽带隙半导体的自旋电子材料
4. Wide Bandgap Materials for Semiconductor Spintronics [C] . S.J.Pearton, C.R.Abernathy, G.T.Thaler, Progress in Compound Semiconductor Materials III: Electronic and Optoelectronic Applications . 2003

机译：半导体自旋电子学的宽带隙材料
5. Understanding Electrically Active Interface Formation on Wide Bandgap Semiconductors through Molecular Beam Epitaxy Using Fe3O 4 for Spintronics as a Base Case [D] . Hamedani Golshan, Negar. 2017

机译：通过分子束外延，使用Fe3O 4作为自旋电子学，通过分子束外延了解宽带隙半导体上的电活性界面形成
6. Review on Driving Circuits for Wide-Bandgap Semiconductor Switching Devices for Mid- to High-Power Applications [O] . Chao-Tsung Ma, Zhen-Huang Gu 2021

机译：用于中频到高功率应用的宽带隙半导体开关装置的驱动电路综述
7. Lanthanide impurities in wide bandgap semiconductors: a possible roadmap for spintronic devices [O] . Caroena, G., Machado, W. V. M., Justo, J. F., 2013

机译：宽带隙半导体中的镧系元素杂质：可能的路线图用于自旋电子设备
8. Wide-Bandgap Compound Semiconductors to Enable Novel Semiconductor Devices [R] . Crawford, M. H., Chow, W. W., Wright, A. F., 1999

机译：宽带隙化合物半导体将推出新型半导体器件

Wide bandgap GaN-based semiconductors for spintronics [Review]

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