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超多学术大牛!2月9日磁学成像线上会议重磅来袭

发布日期:2021-02-02



Magnetic Imaging Conference  磁学成像会议

 


  

2021年2月9号 | 线上会议


挑战,技术 & 磁学成像最新科研动态


纳米磁性材料总是展现出许多有趣的和新兴的现象,使得纳米磁学成为当前最活跃的科研领域之一。表征这类材料的关键是提高测量设备的分辨率和灵敏度,这也极大推动了基于扫描探针的磁学成像技术的发展。


在本次磁学成像线上国际会议中,来自全球众多著名高校的多位世界知名科学家将分别介绍,利用不同的磁学成像技术所取得的、并发表在Nature、Science等有影响力期刊上前沿科研成果,内容包括:磁力显微成像(MFM)、NV色心显微成像(NVM)和扫描SQUID成像等,欢迎大家注册参加!


部分报告人简介:


1. 沈健 教授(复旦大学,上海,中国),报告题目:“Physical origin of complex magnetic domain structures in manganites”.

研究兴趣:纳米磁性、自旋电子学、低维物理、复杂体系强关联效应。Investigation of emerging phenomena at surface, in reduced dimensionality, and at nanometer scale. Specific interest includes magnetism and electronic transport of nanostructured materials, and their underlying physical mechanism.

 

2. Patrick Maletinsky 教授 (巴塞尔大学, 巴塞尔, 瑞士) ,报告题目:“Single-spin nanoscale imaging of atomically thin magnets”.


研究兴趣:

Our research is driven by the goal to establish and employ innovative and powerful quantum technologies for nanoscale quantum sensing and imaging. Our group specialises on applying such approaches to problems in condensed matter physics with a particular focus on mesoscopic systems. Our current focus lies on the use of Nitrogen-Vacancy (NV) center spins for such sensing applications. 

 

3. John Kirtley 教授 (斯坦福大学, 美国),报告题目:“Determining the vibrations between sensor and sample in SQUID microscopy”.

 

研究兴趣:

Scanning SQUID microscopy: For the past twenty years I have developed the technique of scanning SQUID microscopy and used the resulting novel instruments for fundamental studies. These studies included: Phase sensitive pairing symmetry tests,Interlayer tunneling model,Interacting p-loop arrays,Quench cooled superconducting rings, Angle-resolved phase sensitive measurements of the in-plane gap symmetry in YBCO.

 

注册报名


您可通过扫描下方二维码或点击此处报名注册参与两部分的学术报告会(报告之后含问答环节)。最后还有关于磁学成像未来的小组讨论,领域的权威的人士将会参与讨论。


扫描扫描上方二维码,即刻报名参与本次讲座




会议程序册

(详见下表)




以下为CST时间(北京)


第一部分:

3:40 - 3:55 p.m.  Mirko Bacani (attocube systems AG, Haar, Germany) | attocube systems as your partner in low-temperature magnetic imaging

4:00 - 4:25 p.m.  Jan Seidel (University of New South Wales, Sydney, Australia) | Variable temperature MFM measurements of magnetic oxide materials

4:30 - 4:55 p.m.  Jian Shen (Fudan University, Shanghai, China) | Physical origin of complex magnetic domain structures in manganites

5:00 - 5:25 p.m.  Eli Zeldov (Weizmann Institute of Science, Rehovot, Israel) | topological currents and twist-angle disorder in magic-angle graphene

5:25 - 5:45 p.m.  Virtual Coffee Break

5:45 - 6:15 p.m.  Jörg Wrachtrup (University of Stuttgart, Stuttgart, Germany) | Nanoscale probing of functional 2D materials

6:20 - 6:45 p.m.  Vincent Jacques (University of Montpellier, Montpellier, France) | antiferromagnetic order with a single spin microscope

6:50 - 7:15 p.m.  Christian Degen (ETH Zurich, Zurich, Switzerland) | Towards mK magnetometry of electronic transport in condensed matter systems


第二部分:

9:10 - 9:40 p.m. Stuart Parkin (Max Planck Institute for Microstructure Physics & Martin Luther University Halle-Wittenberg, Halle Germany) | Chiral non-collinear spin textures imaged using magnetic force microscopy and lorentz transmission electron microscopy

9:45 - 10:00 p.m. Samuel Seddon (University of Warwick, Coventry, UK) | Real-space Observation of Ferroelectrically Induced Magnetic Spin Crystal in SrRuO3

10:05 - 10:30 p.m. Patrick Maletinsky (University of Basel, Basel, Switzerland) | Single-spin nanoscale imaging of atomically thin magnets

10:30 - 10:45 p.m. Virtual Coffee Break

10:45 - 11:10 p.m. Ruslan Prozorov (Iowa State University & Ames Laboratory, Ames, USA) | Probing quantum criticality using optical NV magnetometry

11:15 - 11:40 p.m. John Kirtley (Kirtleyscientific.com, Stanford, USA) | Determining the vibrations between sensor and sample in SQUID microscopy


小组讨论:

12:00 - 1:00 a.m. future of magnetic imaging: What are key challenges in applications, and which techniques are going to solve these best?

Host: 

Khaled Karraï (attocube systems AG, Haar, Germany)

Participants:

Thierry Debuisschert (Thales Research & Technology, Palaiseau, France)

Hans Josef Hug (Empa - Swiss Federal Labs for Materials Science and Technology, Dübendorf, Switzerland)

Kathryn Ann Moler (Stanford University, Stanford, USA)

Stuart Parkin (Max Planck Institute for Microstructure Physics & Martin Luther University Halle-Wittenberg, Halle, Germany)

Jörg Wrachtrup (University of Stuttgart, Stuttgart, Germany)




持续产生科学影响

 

德国attocube公司产品助力您的磁学成像研究


attoDRY2100 >

 

独特的低振动可变温磁体系统,专为光学和扫描探针显微镜设计。



attoAFM-MFM I >

 

基于悬臂梁的原子力显微镜,基于激光干涉测量,用于低温条件下MFM、PFM、KPFM、EFM、c-AFM的测量。


attoAFM/CFM >

 

结合原子力显微镜与共聚焦显微镜,用于低温下光学探测磁共振成像。


LT-APO 低温物镜 >

 

专为低温环境设计,消色差物镜,高数值孔径。


mK 设备与平台 >

 

为接近绝对零度的基础科研提供解决方案。


低温纳米精度位移台>

 

基于压电陶瓷驱动,适用低温环境,纳米精度。