CEMS Topical Meeting Online

Correlated Topological Semimetals and Insulators

November 10, 2020



The intersection of band topology and correlations, e.g. magnetism and superconductivity, is one of the most dynamic fields in contemporary Condensed Matter Physics. In this meeting, international researchers will present their work regarding discovery of new materials, visualization of electronic surface states, as well as observation of new transport and optical properties with potential for applications in detector technology or next-generation electronic circuits.



Tuesday, November 10, 2020

9:00 - 9:10Opening
9:10 - 9:50Leslie Schoop (Princeton University)
From chemical bonds to topology
9:50 - 10:30Satoru Nakatsuji (University of Tokyo)
Electrical manipulation of an antiferromagnetic Weyl semimetal state
10:30 - 10:40Break
10:40 - 11:20Riccardo Comin (Massachusetts Institute of Technology)
Topological physics in the 2D kagome network
11:20 - 12:00Andrea Young (UC Santa Barbara)
Orbital Chern insulators in van der Waals heterostructures
12:00 - 13:00Break
13:00 - 13:40Ryutaro Yoshimi (RIKEN CEMS)
Quantum transport in thin film heterostructures of Te-based topological materials
13:40 - 13:50Break
13:50 - 14:30Haim Beidenkopf (Weizmann Institute of Science)
Topological protection of Weyl fermions visualized on the atomic scale
14:30 - 15:10Maia Vergniory (Donostia International Physics Center)
Cluster perturbation theory and topological Hamiltonian: a route to identify topological phases in correlated systems
15:10 - 15:20Closing

* Japan Standard Time (JST / UTC+0900)


Registration (On Demand)

Until noon on November 13, 2020 (Closed)


Download abstract

pdf-icon Abstract.pdf (0.35MB)


Contact us

For help and further information, please contact:

Secretariat of CEMS Topical Meeting Online
Topological Quantum Matter Unit, RIKEN CEMS
Address: Frontier Research Building #207, 2-1 Hirosawa, Wako, Saitama 351-0198
Phone: +81(0)48 462 1111 Ext. 6115
Fax: +81(0)48 462 1111 Ext. 6350
Email: maximilian.hirschberger@riken.jp


  • Max Hirschberger (RIKEN CEMS)