学术活动
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2023-0228
Title: Search for New Physics with Atomic MagnetometersSpeaker: Wei Ji(季伟),Helmholtz Institute MainzTime: 2:00 pm, Mar 9 (Thursday) 2023Location: 理科楼C109Abstract: Tabletop precision measurements provide powerful tools to search for new physics beyond the standard model, such as dark matter and exotic spin-dependent interactions (5th force). The exotic spin-dependent interaction may be m...
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2023-0224
报告题目:物理系colloquium: 人工微结构光场多维调控物理及应用报告人:陈树琪南开大学物理科学学院报告时间:2023-03-02 16:00报告地点:理科楼郑裕彤讲堂主办单位:物理系简介:亚波长乃至深亚波长尺度实现对光子的局域与操控,发现极小空间尺度光场产生及其与物质相互作用新物理与新效应,是当今微纳光学发展的主旋律之一,近年来对激光物理、量子物理、非线性物理的发展产生了深远的影响。一方面,不同材料和几何尺寸的微纳结构...
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2023-0223
报告题目:物理系colloquium: 破解宇宙加速膨胀之谜报告人:赵公博国家天文台副台长、研究员,国科大天文学院天文学系主任报告时间:2023-02-23 16:00报告地点:理科楼郑裕彤讲堂主办单位:物理系简介:1998年发现的宇宙加速膨胀现象 (该发现获2011年诺奖) 意味着当前宇宙的主要能量组分可能是暗能量。在传统的宇宙学标准模型中,暗能量是爱因斯坦百年前提出的“宇宙学常数”,其不具有任何动力学性质。然而,近期的天文观测表明,在...
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2023-0222
报告人: 郑浩 教授上海交通大学报告题目:发现超导“分段费米面”报告时间: 2023年02月27日 15:00报告地点: 理科楼C302报告摘要:1965年,Fulde理论预言,超导体中如果库珀对的动量足够大就可以在超导能隙中产生准粒子,从而导致出一种特殊的费米面。但由于普通超导体库珀对动量足够大时,产生准粒子的同时,库珀对也会破裂而失去超导,因此要观察到超导费米面实验上非常困难。该预言一直没有被证实。我们将拓扑表面态费米速度...
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2023-0217
报告题目:基于任意子模型的量子信息报告人: 徐诚谦 中科院物理所报告时间:2023年2月20日周一15:00报告地点:理科楼C302报告摘要:任意子由于其特有的希尔伯特空间结构而具有拓扑鲁棒性,在拓扑量子计算中作为信息载体被广泛研究。然而,如何表征由任意子组成的量子网络中的信息流,在这一问题上,量子信息领域还没有给出权威的答案。这促使我们对任意子态的量子信息进行研究。在本报告中,我们将首先回顾描述任意子的数学框...
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2023-0216
报告题目:Unconventional Spin Currents in Antiferromagnets报告人:邵定夫,中国科学院固体物理研究所时间地点:2023-02-21 (周二上午) 10:00 理科楼C302(物理系三层报告厅)联系人:于浦教授Abstract: Spintronics is a research field that exploits magnetic order parameters as the state variable in electronic devices, such as nonvolatile memories and logics. Spin currents play a central role in spintron...
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2023-0214
Title: Bootstrap Our Way towards Inflationary New PhysicsSpeaker: Dong-Gang Wang 王东刚 (University of Cambridge)Time: 2:00pm, Feb 14 (Tuesday) 2023Location: 理科楼C302Abstract: Cosmological correlation functions contain valuable information about the primordial Universe, with possible signatures of new physics at extremely high energies. Recently, the advances of the ”cosmological bootstrap”...
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2023-0205
标题: Anomalous dynamics and associated phenomena in topological systems out of equilibrium报告人:孙孝奇 University of Illinois at Urbana-Champaign报告时间:2023年2月8日(周三)上午9:00-10:30腾讯会议ID: 653-214-168摘要:In 1981, Nielsen and Ninomiya proved that chiral modes cannot emerge from a static lattice system without partners of opposite chirality. Even though the theorem was original...
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2023-0205
标题: Engineering quantum magnetic materials报告人:王冲 美国华盛顿大学报告时间:2023年2月7日(周二)上午9:00-10:30腾讯会议ID: 162-440-504摘要: Magnets play a vital role in modern technology. Ferromagnets, for example, use collective aligned spins in magnetic domains to store information. But if neighboring spins are allowed to point in different directions, many new possibilities arise. This...
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2023-0202
报告人:Yi Yang,University of California, Berkeley报告时间:2023年2月6日(周一)上午9:00腾讯会议ID: 381-746-851Abstract:The geometry of supernovae and other cosmic explosions contains critical information about their mysterious nature. However, those events are too far to be spatially resolved even using the biggest telescopes. The most effective way to probe their shapes is polarimetry. For ...
