Bereiche | Tage | Auswahl | Suche | Aktualisierungen | Downloads | Hilfe
SYHE: Symposium Hydrodynamic Electronics: Transport in ultra-pure Quantum Systems
SYHE 1: Hydrodynamic electronics: Transport in ultra-pure quantum systems
Mittwoch, 3. April 2019, 09:30–12:15, H1
The fluid flow of liquids is governed by the laws of hydrodynamics. Nonlocal transport behavior and turbulence are among the hallmarks of hydrodynamic flow. Recently, major experimental and theoretical progress has been made in identifying and investigating quantum materials with hydrodynamic flow of electrons. Examples are ultraclean graphene, Weyl semimetals, and delafossites, where momentum- conserving collisions dominate over all other scattering processes. Hydrodynamic transport coefficients, such as the electron viscosity or energy diffusivities, reveal key information about the strength of interactions and the nature of thermalization in a quantum many-body system. These issues are of relevance in systems as diverse as cold atomic gases, the quark gluon plasma, and the above electronic materials. The phenomena to be discussed include non-local transport, hydrodynamic magneto-transport, super-ballistic current flow, flow vorticity in graphene, extreme thermal conductivities, coupled energy-charge solitons, and electron-phonon fluids. New theoretical concepts include nonlinear flow responses, quantum-critical transport, bounds on transport coefficients, and applications of string theoretical methods to capture the physics of hydrodynamic electronics. The aim of this symposium is to bring together the leading experimental and theoretical experts, and thus to directly address some of the most pressing controversies in this field.
 |
09:30 | SYHE 1.1 | Hauptvortrag: Imaging electron flow in nanostructures, from the ballistic to the hydrodynamic regime — •Joseph Sulpizio |
|
10:00 | SYHE 1.2 | Hauptvortrag: Unconventional transport in mesostructures of ultra-pure delafossite metals — •Andrew Mackenzie |
|
10:30 | SYHE 1.3 | Hauptvortrag: Topological Materials with liquid electrons — •Claudia Felser and Johannes Gooth |
| 11:00 | 15 min. break | ||
|
11:15 | SYHE 1.4 | Hauptvortrag: Hydrodynamic approach to electronic transport — •Boris Narozhny |
|
11:45 | SYHE 1.5 | Hauptvortrag: Electron hydrodynamics in graphene: introduction and status — •Denis Bandurin |