北京
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報告人: 孫昌璞,中國工程物理研究院研究生院
時間:10月21日(周二)15:00
單位:中國科學院理論物理研究所
地點:南樓6620
2
報告人:Zhenghao Zhong,SIMIS
時間:10月21日(周二)10:30
單位:北京大學物理學院
地點:物理西樓B105
3
報告人:Hjalte Frellesvig,Zhejiang University
時間:10月22日(周三)10:30
單位:北京大學物理學院
地點:物理西樓B105
4
報告人: Zhe Wang,Department of Physics, TU Dortmund University
時間:10月22日(周三)15:00
單位:中國科學院物理研究所
地點:M樓253會議室
摘要:
In the talk I will present an overview of our recent experimental studies of nonlinear terahertz dynamics in several representative classes of solid-state materials, including Dirac semimetal, semiconductor, and strongly correlated metal. By using time-resolved ultrafast terahertz high-harmonic generation spectroscopy, we are able to reveal characteristic nonequilibrium nonlinear dynamics of Dirac/Weyl fermions, may-body excitonic states and quantum critical metal at the terahertz frequencies. I will show that the ultrafast terahertz high-harmonic generation spectroscopy is very powerful for the investigation of the complex dynamic behaviors of Dirac/Weyl fermions, many-body excitons, or strongly correlated electrons, and present our understanding of the physics responsible for the very intriguing nonlinear phenomena.
報告人簡介:
Professor Zhe Wang studied physics in Nanjing University, and obtained his master and PhD degrees from the University of Augsburg in Germany. Before he joined TU Dortmund University as a full professor in 2020, he was a junior group leader at the University of Cologne from 2019 to 2020 and a postdoctoral fellow in the Helmholtz-Center Dresden-Rossendorf from 2017 to 2019. His recent research focuses on terahertz dynamics of quantum materials, particularly in quantum magnets, Dirac matter and superconductors.
5
報告人:李藝苑,中國科學院大氣物理研究所
時間:10月22日(周三)15:00
單位:北京大學物理學院
地點:物理大樓北547教室
騰訊會議:655-163-709
摘要:
無論在地球還是火星,大氣模式都是數值天氣預報與氣候預測最核心的工具之一。本報告將介紹大氣模式的構建原理與方法,重點闡述模式系統的關鍵組成,包括:數值方案、計算網格、坐標系等的設計思路與主要特征。在火星部分,報告將在簡要概述火星大氣基本特征的基礎上,以中國新一代火星大氣模式GoMars的研發為例,介紹模式構建思路與評估方法。希望本報告能幫助模式用戶更深入理解模式行為,也期待更多對建模感興趣的同行加入模式研發。
報告人簡介:
李藝苑博士畢業于中國科學院大學,地球流體力學專業,現任中國科學院大氣物理研究所副研究員。自幼熱愛科學,博士求學至今,一直從事大氣模式基礎問題研究,特別關注新型垂直坐標的設計。2014-2016、2018-2022年參與中國科學院大學研究生核心課程“計算地球流體力學”授課。近年來,圍繞火星大氣模式研發開展工作,合作發展了中國新一代火星大氣模式GoMars,相關工作被選為《科學通報》(2024年第10期)和《Advances in Atmospheric Sciences》(2025年預出版)的封面文章發表。
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報告人:何楊輝,Yang-Hui He
時間:10月22日(周三)15:00
單位:北京大學物理學院
地點:物理西樓3層思源報告廳
7
報告人: 楊帆,北京理工大學
時間:10月23日(周四)10:00
單位:中國科學院理論物理研究所
地點:南樓6620
8
報告人:熊汗青,北京大學
時間:10月23日(周四)14:00
單位:中國科學院物理研究所
地點:M樓253會議室
摘要:
Stimulated Raman scattering (SRS) has emerged as a powerful quantitative contrast mechanism for chemical imaging in recent years. Conventional SRS techniques, which operate in the frequency domain, face a fundamental trade-off between excitation efficiency and spectral resolution: while the nonlinear process benefits from ultrafast pulsed excitations, the time-energy uncertainty principle intrinsically limits spectral resolution. Additionally, spectral range and acquisition speed are mutually constrained. In this talk, I will present a novel time-domain excitation strategy developed in our lab that circumvents these limitations. By encoding Raman free-induction decays into time-domain stimulated Raman loss (SRL) signals through vibrational wave packet interference, we reconstruct the Raman spectrum via Fourier transform of the time-domain SRL signal. This approach achieves natural-linewidth-limit spectral line shapes, a spectral range determined by the laser bandwidth, and enhanced sensitivity. I will discuss our progress in obtaining self-calibrated standard Raman spectra and high-speed super-broadband Raman imaging, along with the advantages and limitations of this method for biomedical imaging applications.
報告人簡介:
Prof. Hanqing Xiong is now an assistant professor of the National Biomedical Imaging Center at Peking University (selected for the National Youth Talent Program of China). He received his Bachelor's degree from the Department of Biomedical Engineering at Huazhong University of Science and Technology in 2012, followed by his Master's training at the Wuhan National Laboratory for Optoelectronics, Huazhong University of Science and Technology in 2015. He then pursued his doctoral studies at Columbia University, where he trained as a spectroscopic physicist and earned his Ph.D. from the Department of Chemistry in 2020. He joined Peking University as a PI in Mar. 2021. His research focuses on ultrafast molecular vibrational spectroscopy and its applications in biomedical detection and imaging. He has published systematic research innovations in the fields of (i) coherent Raman spectroscopy & imaging and (ii) mesoscale connectomics, and holds or has applied for several related invention patents.3.
9
報告人:萬義頓,復旦大學物理系
時間:10月24日(周五)9:30
單位:中國科學院物理研究所
地點:M樓837
摘要:
In this talk, we shall introduce a CFT factory -- a novel algorithm of methodically generating 2D lattice models that would flow to conformal field theories (CFTs) in the infrared. We realise these models by engineering the boundary conditions of 3D topological orders (SymTOs) described by string-net models. The critical points are induced by a commensurate condensation of non-commuting anyons. Our structured method generates an infinite family of critical lattice models, including the A-series minimal models, and uncovers previously unknown critical points. Notably, we discover at least three novel CFTs (with central charge c around 1.3, 1.8, and 2.5) that preserves the Haagerup symmetries, in addition to recovering previously reported examples. The non-invertible symmetries preserved at these points are dictated by a novel "refined condensation tree". The condensation trees predict large swathes of phase boundaries and sieves out second order phase transitions. This predictive power is illustrated not only in well-studied examples, such as the 8-vertex model associated with the A5 category, but also in new cases involving Haagerup symmetries, validated by an improved symmetry-preserving tensor-network renormalization group method. The critical couplings are precisely encoded in algebraic data (the Frobenius algebras and quantum dimensions of unitary fusion categories), thereby establishing a powerful and systematic route to the discovery and potential classification of new CFTs.
報告人簡介:
Yidun Wan is a tenured professor of physics at Fudan University. He has a diverse educational background, with bachelor degrees in computer science and economics from South China University of Technology (1998), master of computer science from University of Pennsylvania (2002), master of physics from University of Ottawa (2004), and PhD in theoretical physics from University of Waterloo and Perimeter Institute for Theoretical Physics (2009). He also did postdoctoral research at Kinki University, Tokyo University, and Perimeter Institute for Theoretical Physics from 2009 to 2016. He joined Fudan as a professor in 2016. His research interests include cosmology, topological orders, quantum information and computation, and their interdisciplinary studies.
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報告人:趙振華,遼寧師范大學
時間:10月24日(周五)10:30
單位:中國科學院理論物理研究所
地點:南樓6520
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