1
报告人:于海明,北京航空航天大学
时间:6月9日(周三) 15:00
单位:中科院物理研究所
地点:M楼253会议室
摘要:
Spin waves may enable low-power devices based on spin information transmission that is free of Joule heating. Antiferromagnetic-type spin waves have intrinsic advantages, such as high speed, dual- polarized and robust against external field perturbation. To date, antiferromagnetic-type propagating spin waves excitation and manipulation have remained challenging. Here, we demonstrate current-controlled stripe domains with
alternating upward and downward magnetization in La0.67Sr0.33MnO3 thin films, which host spin-wave propagation. A frequency mode around 10 GHz higher than the ordinary low-frequency modes is observed and the dispersion of this mode is different from the low-frequency ones. We developed a theoretical model based on two oppositely oriented coupled domains, which accounts the high-frequency mode an effective antiferromagnetic spin-wave mode. The spin waves can even propagate at zero magnetic field, with group velocities of 2.6 km s-1. The orientation of the stripe domains can be controllably modified by an electric current pulse with a density of only 105 A cm-2, which opens up perspectives for reconfigurable magnonic devices。
报告人简介:
于海明,北京航空航天大学集成电路科学与技术学院教授、博士生导师。2006年本科毕业于北京大学物理系,2011年博士毕业于瑞士洛桑联邦理工大学(EPFL),2011-2014年于慕尼黑工业大学(TU Munich)从事博士后研究,2014年入职北京航空航天大学, 2015年获批海外高层次人才计划青年项目,从事自旋电子学研究。主要研究方向包括自旋波电子学、热自旋电子学、自旋波量子计算等。SCI发表论文五十余篇,其中包括1篇Nat. Nanotechnol., 1篇Phys. Rep., 3篇Phys. Rev. Lett.以及4篇Nat. Commun.,撰写英文图书章节两章。2019年至今担任Physica B期刊Editor。
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How solid is our understanding of liquids and amorphous systems?
报告人:Prof. Matteo Baggioli
时间:6月8日 (周二) 15:00
单位:中科院理论物理研究所
地点:南楼6620
摘要:
The vibrational, thermodynamical and mechanical properties of solids are well-understood since Debye's work in 1912. On the contrary, the same understanding for amorphous systems (liquids and glasses) has remain elusive for more than a century and it is still a mystery. In this talk I will formulate a theory for liquids based on the so-called instantaneous normal modes and I will explain how their density of states and specific heat can be rationalized using simple effective concepts, in a way similar to Debye's theory for solids. Moreover, I will address the question about the differences between liquids and solids from the point of view of fundamental symmetries. I will propose a new distinction between solids and amorphous systems based on non-affine displacements and a topological symmetry which can be quantified by using the concept of Burgers vector applied to the dynamical displacement fields. I will show how effective field theory and hydrodynamics approaches based on this concept are able to derive from first principles all the known dynamical features of the vibrational modes in liquids. Finally, I will show an application of this formalism to understand and successfully quantify plasticity in amorphous systems.
3
Molecular gas in HI-rich UDGs
报告人:王均智,上海天文台
时间:6月8日(周二) 16:00
单位:中国科学技术大学天文学系
参会方式:蔻享直播
会议链接:https://www.koushare.com/lives/room/952991
摘要:
I will present our observations of CO lines toward a sample of HI-rich Ultra diffuse galaxies (UDGs) with IRAM 30 meter telescope. With one marginal detection of CO 1-0 and upper limits for other galaxies, extremely low molecular to atomic gas ratios in such galaxies are obtained. Based on the CO observations, the inefficiency of star formation in these HI-rich UDGs are due to the difficulty of forming molecular gas from atomic gas, instead of forming stars from molecular gas.
报告人简介:
Junzhi Wang is currently a research Professor at radio division of Shanghai Astronomical observatory (SHAO). He obtained his Bachelor, Master and PhD degrees in Astronomy at PKU. He was then a postdoc at Purple Mountain Observatory and an associate professor in NJU until 2013. His research interests are star formation and ISM in nearby galaxies and the Milky Way, AGN feedback, and Mega-masers, using radio and (sub-)millimeter facilities in the world, including IRAM 30 meter, Effelsberg, JVLA, NOEMA, SMA, GBT, Arecibo, and the ALMA.
4
中子散射技术及新堆中子科学平台介绍
报告人:刘蕴韬,中国原子能科学研究院核技术综合研究所
时间:6月10日(周四)15:00
单位:北京大学
地点:物理楼中212报告厅
摘要:
中子散射技术作为探究物质微观世界的重要技术手段之一,因所用中子探针的独特性,目前在物理、化学、材料、生物、医药等众多领域具有十分重要的应用。中国原子能科学研究院中国先进研究堆(简称新堆)热功率为60MW,反射层处最大未扰热中子通量为8×1014中子/(秒·平方厘米),其各项性能指标均处于世界先进水平。到目前为止,中国先进研究堆已完成一期中子散射科学谱仪的建设工作并对外开展服务。本报告将介绍中子散射技术的自身特点、国内外发展现状,并着重介绍原子能院中国先进研究堆中子科学平台目前的建设和应用情况,以及未来发展愿景。
报告人简介:
刘蕴韬,博士/研究员/博士生导师,中国原子能科学研究院核技术综合研究所所长、计量与校准技术国防科技重点实验室副主任、国防科技工业电离辐射一级计量站常务副站长、中国核学会电离辐射计量分会副理事长兼秘书长、国家科技部重点研发计划项目首席科学家,国务院特殊政府津贴获得者。在中子散射分析技术和电离辐射计量方面具有多年的工作经验,在国内外学术期刊发表文章130余篇(其中SCI 55 篇),获授权发明专利16项,编写国家标准2项。
5
Infrared Echoes of Tidal Disruption Events
报告人:Ning Jiang,USTC
时间:6月10日(周四)16:00
单位:北京大学
地点:KIAA-auditorium
摘要:
Tidal disruption event (TDE) occurs when a star approaches too close to a supermassive black hole (SMBH). If the circumnuclear medium is dusty, the original TDE emission (soft X-ray, UV, optical) will be reprocessed into infrared (IR) band like an echo. Therefore, the IR echoes provide us a unique opportunity to study the dust environment around SMBHs down to subparsec scale, which is otherwise extremely difficult to probe. On the other hand, they can serve as an effective means to unveil obscured TDEs, which might be overlooked by optical/X-ray surveys. In this talk, I will first introduce the IR echoes detected in TDEs and the dust properties learned from them. Then I will show our ongoing project on Mid-Infrared Outburst in Nearby Galaxies (MIRONG), which was proposed out to uncover TDEs in dusty environment. I will share some interesting results from the MIRONG project and highlight why IR echo is crucial for understanding TDEs thoroughly.
报告人简介:
Ning Jiang(蒋凝) is currently a research associate at astronomy department of University of Science and Technology of China (USTC). He has received his Bachelor and PhD degree in USTC at 2009 and 2015, respectively. Actually, most of his time so far is spent at USTC except for two years at Carnegie Observatories as a visiting student. His research interests focus on observational studies of supermassive black holes, including tidal disruption events, changing-look active galactic nuclei, intermediate-mass black holes, environments of SMBHs from subparsec to halo scales. Besides, he is also interested in searching for various transients, either related or unrelated with SMBHs, from wide-field time-domain surveys.
6
开辟鸿蒙:探索宇宙的黑暗时代与黎明
报告人:陈学雷,中国科学院国家天文台
时间:6月10日(周四)16:00
单位:清华大学物理系
地点:理科楼郑裕彤讲堂
摘要:
宇宙大爆炸之后随着等离子体复合,进入黑暗时代,直到第一代恒星形成,迎来宇宙黎明。中性氢的21cm谱线为研究这一宇宙早期时代提纲了一个独特的探针,这一谱线今天则已红移到更长的波长。2018年,EDGES实验组称已探测到宇宙黎明的信号,但他们探测的这一信号超过标准模型的预期。由于地球电离层的阻隔和地球上的电磁干扰,地面的观测有很大难度, 实际上在30MHz以下的超长波段,现有的观测资料非常稀少,电磁频谱的这一频段还几乎是空白。我将介绍关于这一时期的研究,以及我们提议的“鸿蒙”绕月超长波卫星阵列,该阵列将有望获得首个这一频段的全天天图,打开一个新的观测窗口,同时也可以实现对宇宙黎明时代的精确全天平均频谱测量。
报告人简介:
陈学雷,中国科学院国家天文台宇宙暗物质暗能量研究团组首席研究员,中国科学院大学岗位特聘教授。1999年获哥伦比亚大学博士学位,从事宇宙学、射电天文学、粒子天体物理研究,主持天籁计划(暗能量射电探测关键技术研究)和鸿蒙计划(超长波天文阵列)项目,已发表研究论文160余篇。
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非线性光学在二维材料研究中的应用
报告人:吴施伟,复旦大学物理系
时间:6月10日(周四) 15:00
单位:合肥微尺度物质科学国家研究中心、国际功能材料量子设计中心、中科院强耦合量子材料物理重点实验室、中国科大物理系、科研部
参会方式:蔻享直播
摘要:
二维材料因其简单的结构、丰富的物性、便捷的调控和多样的组合正成为研究凝聚态物理的理想体系。另一方面,二维材料的低维属性对相关的实验研究提出了不少挑战。在本报告中,我将介绍非线性光学,特别是二次谐波产生,在二维材料研究中的应用。我们最近的工作发现,非线性光学二次谐波过程不仅对体系的晶格结构中心反演对称破缺超级敏感,而且对长程磁有序和电子-空穴对称性也高度依赖。在二维极端限域下,非线性的光与物质相互作用也更为强烈。我们相信,非线性光学是研究低维量子材料的重要手段。
报告人简介:
吴施伟,复旦大学物理系教授,教育部长江学者特聘教授。研究方向是低维量子体系的光物理,致力于发展自主创新的实验研究方法,以探索时间、空间分辨极限下的光物理现象与机制,解决与凝聚态物理、材料科学、纳米科技等领域相关的基础科学问题。近年来,吴施伟教授在复旦大学主持研制了和光耦合的无液氦低温扫描隧道显微镜、低温强磁场超快非线性光学显微装置等特色实验平台,并在二维量子材料的非线性光学响应、缺陷结构和物性等方面取得了一定的成果。这些研究成果以通讯作者在Nature、Science、Nature Photonics、Nature Nanotechnology、Science Advances、PRL等期刊发表,并获得国家发明专利5项和美国发明专利2项。
报告人:于江浩,理论物理研究所
时间:6月11日(周五)18∶30
单位:国科大物理科学学院
地点:雁栖湖校区 西区 教一楼 215
摘要:
物质反物质不对称性的起源一直是自然探索的未解之谜。2012年Higgs粒子的发现为这一谜团找到了可能的解释。本讲座会从物质起源的谜团开始,介绍 Higgs粒子的早期宇宙的一阶相变的模式,其对物质起源的影响,以及可能的对撞机和引力波信号
报告人简介:
于江浩, 中国科学院理论物理研究所研究 员/博导, 密歇根州 立大学博士。得克萨斯大学奥斯汀和麻省大学阿姆斯特分校博士后,获基金委优青资助。研究领域为粒子物理和粒子字宙学, 主要集中于Higgs物理,有效场论,重子轻子生成及低能检验,暗物质中微子宇宙学
