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Winter School and Workshop on spin physics and topological effects in cold atoms, condensed matter, and beyond

关于冷原子、凝聚态物质及其他领域的自旋物理和拓扑效应的冬季学校和研讨会

基本信息

批准号：
1203476
负责人：
Jairo Sinova
金额：
$ 0.7万
依托单位：
Texas A&M University
依托单位国家：
美国
项目类别：
Standard Grant
财政年份：
2011
资助国家：
美国
起止时间：
2011-11-15 至 2012-10-31
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=1203476&HistoricalAwards=false
关键词：
Winter Workshop spin physics topological

项目摘要

This award provides support for the Winter School and Workshop on Spin Physics and Topological Effects in Cold Atoms, Condensed Matter, and Beyond. The school/workshop will be held at the Mitchell Institute for Fundamental Physics and Astronomy in College Station, Texas from December 12th to the 17th, 2011. The main ojective is to bring together both experts and younger researchers in the areas of condensed matter and cold atom physics, to focus on spin and topological effects in materials and cold atom systems. These have become important themes of modern research in both fields. The school/workshop will facilitate the exchange of ideas and cross collaborations.In condensed matter the spin of electrons plays a crucial role in the understanding of diverse phenomena and phases. The study of how to manipulate and control spin has led to the notion of spintronics, a new paradigm in electronic device technology. The link of electron spin to the topology of the band-structure of materials, through spin-orbit coupling, has given rise to the discovery of new phases of matter and other phenomena such as spin Hall Effect and topological insulators.Cold atoms, which can be trapped and manipulated, can serve as simulators of models for strongly interacting electrons in materials without disorder and other complicating effects that occur for electrons in materials. Cold atom systems have gone beyond recreating simple well controlled systems whose outcomes are expected and mimic large coherent atomic physics, to a new level in which new states of matter and emergent phenomena can be tested and fundamental questions of many body interacting systems can be addressed.This award provides support to enable the attendance of young researchers such as students, post-docs and junior faculty without external funding. The PI will actively seek to recruit members of underrepresented groups to participate in the workshop. The goal of this workshop/school is to bring together leading experts on spintronics and spin-related phenomena in conventional condensed-matter and on cold atoms to stimulate cross-fertilization of these fields.Topics of the workshop/school include: spin and anomalous Hall effect; spin transfer, spin pumping, and current-driven domain wall motion; cold atoms as simulators for quantum magnetism; spin orbit coupling in cold-atom systems; spin-imbalance in cold Fermi gases; pseudospin physics in graphene and semiconductor bilayers; and topological insulators.

该奖项为冬季学校和研讨会提供支持自旋物理和冷原子，凝聚态物质及其他拓扑效应。学校/讲习班将于2011年12月12日至17日在德克萨斯州学院站的米切尔基础物理和天文研究所举行。主要目的是汇集凝聚态和冷原子物理领域的专家和年轻研究人员，专注于材料和冷原子系统中的自旋和拓扑效应。这些已成为这两个领域的现代研究的重要主题。学校/工作坊将促进思想交流和交叉合作。在凝聚态物质中，电子的自旋在理解各种现象和相方面起着至关重要的作用。对如何操纵和控制自旋的研究导致了自旋电子学的概念，这是电子器件技术的一个新范例。通过自旋-轨道耦合，电子自旋与材料能带结构拓扑的联系，导致了物质新相的发现和其他现象，如自旋霍尔效应和拓扑绝缘体。冷原子，可以被捕获和操纵，可以作为材料中强相互作用电子的模型的模拟器，而不会出现电子在材料中发生的无序和其他复杂效应。材料. 冷原子系统已经超越了重建简单的控制良好的系统，其结果是预期的，并模仿大型相干原子物理学，达到了一个新的水平，其中新的物质状态和紧急现象可以测试，许多身体相互作用系统的基本问题可以解决。该奖项提供支持，使年轻的研究人员，如学生，博士后和初级教师参加没有外部资金。 PI将积极寻求招募代表性不足群体的成员参加研讨会。该研讨会/学校的目标是汇集自旋电子学和传统凝聚态物质中自旋相关现象以及冷原子方面的顶尖专家，以促进这些领域的交叉融合。研讨会/学校的主题包括：自旋和异常霍尔效应;自旋转移、自旋泵浦和电流驱动的畴壁运动;冷原子作为量子磁性的模拟器;冷原子系统中的自旋轨道耦合;冷费米气体中的自旋不平衡;石墨烯和半导体双层中的赝自旋物理;以及拓扑绝缘体。