Simulation of power gain and dissipation in field-coupled nanomagnets

机译：现场耦合纳米磁体功率增益和耗散的仿真

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Field-coupled computing (also known as quantum cellular automata or QCA) is a novel architecture for processing information on the nanoscale. Recently, nanomagnets were proposed and demonstrated as a possible 'hardware' for field-coupled computing. In these devices, information is represented by the magnetization state of nanomagnets, while propagation and processing of information is carried out by the magnetic interaction of the dots. A computational study on the power flow and dissipation characteristics of coupled nanomagnets were performed. Magnetization dynamics is calculated by the numerical solution of the Landau-Lifshitz equations. A simple method to determine power flow relations from the simulated time-dependent magnetization and magnetic field distributions was developed. The simulations can be performed either in a full micromagnetic model or using the single-domain approximation.

机译：场耦合计算（也称为量子蜂窝自动机或QCA）是用于在纳米级的信息处理信息的新架构。最近，提出了纳米Magnet，并作为可能的“硬件”作为现场耦合计算。在这些设备中，信息由纳米磁磁带的磁化状态表示，而通过点的磁相互作用来执行信息的传播和处理。进行了对偶联纳米磁磁磁磁磁膜的功率流和耗散特性的计算研究。通过Landau-Lifshitz方程的数值解决方案计算磁化动力学。开发了一种从模拟时间依赖性磁化和磁场分布确定电力流关系的简单方法。可以在完整的微磁模型或使用单域近似来执行模拟。

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《International Workshop on Computational Electronics》|2004年||共2页
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Csaba G.; Lugli P.; Csurgay A.; Porod W.;
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中图分类自动化技术、计算机技术;
关键词
cellular automata; micromagnetics; magnetic particles; magnets; nanostructured materials; power gain; power dissipation; field-coupled nanomagnets; field-coupled computing; quantum cellular automata; magnetization state; magnetization dynamics; Landau-Lifshitz equations; power flow relations; magnetic field distributions; micromagnetic model; single-domain approximation;

机译：细胞自动机;磁性颗粒;磁体;纳米结构;功率增益;功率耗散;现场耦合的纳米磁镜;现场耦合计算;量子蜂窝自动机;磁化状态;磁化动力学;磁化动力学;电力关系;磁场;磁场分布;微磁模型;单域近似;

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1. Simulation of Power Gain and Dissipation in Field-Coupled Nanomagnets [J] . G. CSABA, P. LUGLI, A. CSURGAY, Journal of Computational Electronics . 2005,第1a2期

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4. Simulation of power gain and dissipation in field-coupled nanomagnets [C] . Csaba, G., Lugli, . 2004

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Simulation of power gain and dissipation in field-coupled nanomagnets

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