拓扑相变与拓扑相的理论研究斩获物理学奖|快讯
2016年诺贝尔物理学奖揭晓,奖金的一半颁给美国华盛顿大学的David J. Thouless,另一半由美国普林斯顿大学的F. Duncan M. Haldane与布朗大学的J. Michael Kosterlitz共享,“因其发现物质拓扑相与拓扑相转变方面的理论工作”(”for theoretical discoveries of topological phase transitions and topological phases of matter”)。
相变与拓扑
相变:物质不同有序相(例如固体,液体,气体)之前的转变,例如冰融化成水就发生了相变
拓扑:诺贝尔奖委员会大爷拿出三个面包圈,详细介绍不同
一张图看懂茶壶拓扑变化,电导对应的拓扑序
This year’s Laureates opened the door on an unknown world where matter can assume strange states. They have used advanced mathematical methods to study unusual phases, or states, of matter, such as superconductors, superfluids or thin magnetic films. Thanks to their pioneering work, the hunt is now on for new and exotic phases of matter. Many people are hopeful of future applications in both materials science and electronics.
The three Laureates’ use of topological concepts in physics was decisive for their discoveries. Topology is a branch of mathematics that describes properties that only change step-wise. Using topology as a tool, they were able to astound the experts. In the early 1970s, Michael Kosterlitz and David Thouless overturned the then current theory that superconductivity or suprafluidity could not occur in thin layers. They demonstrated that superconductivity could occur at low temperatures and also explained the mechanism, phase transition, that makes superconductivity disappear at higher temperatures.
In the 1980s, Thouless was able to explain a previous experiment with very thin electrically conducting layers in which conductance was precisely measured as integer steps. He showed that these integers were topological in their nature. At around the same time, Duncan Haldane discovered how topological concepts can be used to understand the properties of chains of small magnets found in some materials.
We now know of many topological phases, not only in thin layers and threads, but also in ordinary three-dimensional materials. Over the last decade, this area has boosted frontline research in condensed matter physics, not least because of the hope that topological materials could be used in new generations of electronics and superconductors, or in future quantum computers. Current research is revealing the secrets of matter in the exotic worlds discovered by this year’s Nobel Laureates.
source:诺贝尔奖委员会
三位大神
David J. Thouless,1934年出生于苏格兰,康奈尔大学博士毕业,华盛顿大学教授,理论凝聚态物理学家。因KT相变而著称。
Duncan Haldane,普林斯顿大学Eugene Higgins Professor of Physics,理论物理学家,英国皇家学会会员,在凝聚态物理理论做出基础性贡献,包括分数量子霍尔效应。
J. Michael Kosterlitz, Brown University, Providence, RI, USA
source:人物介绍来自知社学术圈
相关视频:未来电子高速公路
https://v.qq.com/txp/iframe/player.html?vid=u0192i3dd0e&width=500&height=375&auto=0
本科普纪录片讲述的是拓扑绝缘体和量子反常霍尔效应等最前沿的科学发现,由中国科学院科学传播局、中国科学院物理研究所、中国科学院计算机网络信息中心、中国科普博览联合出品,科学顾问有戴希、何珂(清华大学)、景秀年、杨涛(微电子所)、范宝峡(龙芯)、翁红明、苏少奎和成蒙等,历时两年拍摄完成。
来源:图片来自nobelprize.org和知社学术圈
近期热门文章Top10
↓ 点击标题即可查看 ↓
3. 终于有人讲透了芯片是什么
5. 科研经费大解放!!!
点击公众号内菜单栏“Top10”可查看过往每月热门文章Top10