| Ali, Mazhar: Beyond simple MR and Mobility; A Possible Vision for Dirac/Weyl Devices |
 |
 |
| Ast, Christian: Dirac Cone Protected by Non-Symmorphic Symmetry and 3D Dirac Line Node in ZrSiS |
|
|
| Beidenkopf, Haim: Tantalizing Fermi arcs in a Weyl semi-metal |
|
 |
| Bernevig, Andre: Different Fermions in Condensed Matter |
 |
|
| Brüne, Christoph: Dirac States in HgTe |
|
|
| Fong, Kin Chung: Hydrodynamics, graphene, and single photon detector |
|
|
| Garcia Vergniory, Maia: Time-Reversal Breaking Weyl Metals and Nonsymmorphically Protected Fermions |
|
|
| Goldberger, Josh: High Spin-orbit Group IVA Graphane Analogues and Zintl Phases as Novel Topological Materials |
|
|
| Liu, Zhongkai: Photoemission study of topological Dirac and Weyl semimetals |
|
|
| McQueen, Tyrel: Superconducting Dome and Crossover to an Insulating State in [Tl4]Tl1-xSnxTe3 |
|
|
| Muechler, Lukas:Tilted Dirac Fermions |
|
|
| Pershin, Yuriy V.: Memory Resistive Devices and Their Applications |
|
|
| Phung, Timothy: Enhanced spin orbit torques by oxygen incorporation in tungsten films |
|
|
| Quieroz , Raquel : Nodal superconductors: topology and experimental signatures of surface states |
|
|
| Schnyder, Andreas: Topological semi-metals with line nodes and drumhead surface states |
|
|
| Šmejkal, Libor: Electrical control of Dirac fermions in antiferromagnets |
|
|
| Schoop, Leslie: How Solid State Chemistry can find new Dirac/Weyl materials |
|
|
| Stadtmüller, Benjamin: Imaging the unoccupied band structure of Dirac materials by 2 photon momentum microscopy |
|
|
| Tang, Peizhe: Dirac Fermions in Antiferromagnetic Semimetals |
|
|
| Yan, Binghai Giant intrinsic spin Hall effect in the Weyl Semimetals |
|
|
| Yang, Hyunsoo: Spintronic and optoelectronic devices using topological insulators and Dirac/Weyl materials |
|
|
