|
15:00 |
TT 102.1 |
Weak antilocalization and spin-orbit interaction in epitaxial nanowires — Brian Tarasinski, Ilse van Weperen, Debbie Eeltink, Vlad Pribiag, Erik Bakkers, Leo Kouwenhoven, and •Michael Wimmer
|
|
|
|
15:15 |
TT 102.2 |
Tunable weak anti-localization in InAs nanowire device — •Libin Wang, Jingkun Guo, Sen Li, Ning Kang, Dong Pan, Jianhua Zhao, and Hongqi Xu
|
|
|
|
15:30 |
TT 102.3 |
Full-counting statistics of Landau-Zener interference in quantum dot arrays — •Michael Niklas, Robert Hussein, and Sigmund Kohler
|
|
|
|
15:45 |
TT 102.4 |
Fractionalized double quantum wires — •Tobias Meng and Eran Sela
|
|
|
|
16:00 |
TT 102.5 |
Non-equilibrium Renormalization Group for Kondo Qdots in a Microwave Photon Field — •Andisheh Khedri, Ammar Nejati, and Johann Kroha
|
|
|
|
16:15 |
TT 102.6 |
Competing energy scales in the renormalization group flow of quantum dot setups with periodically varying parameters — •Katharina Eissing, Dante Marvin Kennes, and Volker Meden
|
|
|
|
16:30 |
|
15 min. break.
|
|
|
|
16:45 |
TT 102.7 |
Hauptvortrag:
Microscopic Origin of the 0.7-Anomaly in Quantum Point Contacts: Correlations in 1D — Florin Bauer, Jan Heyder, Dawid Borowsky, D. Taubert, D. Schuh, B. Bruognolo, Werner Wegscheider, Jan von Delft, and •Stefan Ludwig
|
|
|
|
17:15 |
TT 102.8 |
Spin dynamics in a quantum point contact showing the 0.7-anomaly — •Dennis Schimmel, Florian Bauer, Jan Heyder, and Jan von Delft
|
|
|
|
17:30 |
TT 102.9 |
Nonequilibrium transport through Anderson impurities: A comparative study based on continuous-time quantum Monte Carlo simulations and hierarchical quantum master equations — •Rainer Härtle, Guy Cohen, David R. Reichman, and Andrew J. Millis
|
|
|
|
17:45 |
TT 102.10 |
From thermal equilibrium to nonequilibrium quench dynamics: A conserving approximation for the interacting resonant-level — •Yuval Vinkler-Aviv, Avraham Schiller, and Frithjof B. Anders
|
|
|
|
18:00 |
TT 102.11 |
The contribution has been withdrawn.
|
|
|
|
18:15 |
TT 102.12 |
Charge fluctuation effects in superconductor-quantum dot hybrid systems — •Sebastian Pfaller, Andrea Donarini, and Milena Grifoni
|
|
|