National Facility for Electron Spin Correlations and Spintronics

国家电子自旋关联和自旋电子学设施

• 批准号: LE0453842
• 负责人: Em/Prof James (Jim) Williams
• 金额: $ 39.36万
• 依托单位: The University of Western Australia
• 依托单位国家: 澳大利亚
• 项目类别: Linkage Infrastructure, Equipment and Facilities
• 财政年份: 2003
• 资助国家: 澳大利亚
• 起止时间: 2003-11-14 至 2005-11-13
• 项目状态: 已结题
• 来源: https://dataportal.arc.gov.au/RGS/Web/Grants/LE0453842
• 关键词: National; Facility; Electron; Spin; Correlations

Conventional electronics is based on coupling the charge of the electrons with external electric fields and light. Recent work on spintronics is directed toward the use of both the spin (angular momentum) and the charge degrees of freedom of the electron. We currently lead the world in the development of spin-resolved coincidence measurements, which make it possible to determine previously inaccessible nanoscale magnetic properties, central to 'spintronic structure engineering'. State-of-the-art instrumentation is requested to characterise the magnetic and crystallographic structure, the adsorbates, and the lateral distribution and depth profile of fabricated zero, one and two-dimensional structures.

传统的电子学是基于将电子的电荷与外部电场和光耦合。自旋电子学的最新研究方向是利用电子的自旋（角动量）和电荷自由度。我们目前在自旋分辨符合测量的发展方面处于世界领先地位，这使得确定以前无法实现的纳米磁性成为可能，这是“自旋电子结构工程”的核心。国家的最先进的仪器要求，以确定的磁性和晶体结构，吸附物，横向分布和深度剖面制造的零，一维和二维结构。