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Hybrid spintronics and straintronics: A magnetic technology for ultra low energy computing and signal processing

机译：混合自旋电子器件和应变电子器件：一种用于超低能耗计算和信号处理的磁技术

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The authors show that the magnetization of a 2-phase magnetostrictive/piezoelectric multiferroic single-domain shape-anisotropic nanomagnet can be switched with very small voltages that generate strain in the magnetostrictive layer. This can be the basis of ultralow power computing and signal processing. With appropriate material choice, the energy dissipated per switching event can be reduced to ∼45 kT at room temperature for a switching delay of ∼100 ns and ∼70 kT for a switching delay of ∼10 ns, if the energy barrier separating the two stable magnetization directions is ∼32 kT. Such devices can be powered by harvesting energy exclusively from the environment without the need for a battery.

机译：这组作者表明，可以用很小的电压切换2相磁致伸缩/压电多铁性单畴形状各向异性纳米磁铁的磁化强度，从而在磁致伸缩层中产生应变。这可以成为超低功耗计算和信号处理的基础。通过适当的材料选择，在室温下，对于约100 ns的切换延迟，每个开关事件耗散的能量可以降低至〜45 kT；对于约10 ns的切换延迟，则可以将其降低至约70 kT，前提是能垒将两者稳定。磁化方向约为32 kT。这样的设备可以通过仅从环境中收集能量来供电，而无需电池。

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Roy Kuntal; Bandyopadhyay Supriyo; Atulasimha Jayasimha;
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年度 2011
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1. Hybrid spintronics and straintronics: A magnetic technology for ultra low energy computing and signal processing [J] . Kuntal Roy, Supriyo Bandyopadhyay, Jayasimha Atulasimha Applied Physics Letters . 2011,第6期

机译：混合自旋电子器件和应变电子器件：一种用于超低能量计算和信号处理的磁性技术
2. Comment on “Ultra-low-energy non-volatile straintronic computing using single multiferroic composites” [Appl. Phys. Lett. 103, 173110 (2013)] [J] . Bandyopadhyay Supriyo, Atulasimha Jayasimha Applied Physics Letters . 2014,第17期

机译：评论“使用单个多铁性复合材料的超低能非易失性应变电子计算” [Appl。物理来吧103，173110（2013）]
3. Comment on 'Ultra-low-energy non-volatile straintronic computing using single multiferroic composites' [Appl. Phys. Lett. 103, 173110 (2013)] [J] . Supriyo Bandyopadhyay, Jayasimha Atulasimha Applied Physics Letters . 2014,第17期

机译：评论“使用单个多铁性复合材料的超低能非易失性应变电子计算” [Appl。物理来吧103，173110（2013）]
4. Hybrid spintronic/straintronics: A super energy efficient computing scheme based on interacting multiferroic nanomagnets [C] . Atulasimha Jayasimha, Bandyopadhyay Supriyo 2012 12th IEEE International Conference on Nanotechnology. . 2012

机译：混合自旋电子/应变电子学：基于相互作用的多铁性纳米磁铁的超级节能计算方案
5. Ultra-low power straintronic nanomagnetic computing with saw waves: An experimental study of saw induced magnetization switching and properties of magnetic nanostructures. [D] . Sampath, Vimal Ganapathy. 2016

机译：锯波的超低功率应变电子纳米磁计算：锯感应磁化转换和磁性纳米结构特性的实验研究。
6. Reversible strain-induced magnetization switching in FeGa nanomagnets: Pathway to a rewritable non-volatile non-toggle extremely low energy straintronic memory [O] . Hasnain Ahmad, Jayasimha Atulasimha, Supriyo Bandyopadhyay -1

机译：FeGa纳米磁体中应变引起的可逆磁化转换：通往可重写非易失性非触发极低能量应变电子存储器的途径
7. Hybrid spintronics and straintronics: A magnetic technology for ultra low energy computing and signal processing [O] . Roy, Kuntal, Bandyopadhyay, Supriyo, Atulasimha, Jayasimha 2011

机译：混合自旋电子学和应变电子学：超磁性技术低能量计算和信号处理
8. Ultra - Low - Power Asynchronous Processor and FPGA Design using Straintronics Nanomagnets. [R] . Maumder, P. 2013

机译：采用straintronics纳米磁体的超低功耗异步处理器和FpGa设计。

Hybrid spintronics and straintronics: A magnetic technology for ultra low energy computing and signal processing

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