In the last decade, graphene has become an exciting platform for electron optical
experiments, in some aspects superior to conventional two-dimensional electron gases …

Quantum electronics has significantly evolved over the last decades. Where initially the clear
focus was on light–matter interactions, nowadays approaches based on the electron's wave …

Flying qubits encode quantum information in propagating modes instead of stationary
discrete states. Although photonic flying qubits are available, the weak interaction between …

Zigzag nanoribbons hosting the Haldane Chern insulator model are considered. In this
context, a reentrant topological phase, characterized by the emergence of quasi zero …

We investigate a multiterminal mesoscopic conductor in the quantum Hall regime, subject to
temperature and voltage biases. The device can be considered as a nonequilibrium …

Edge magnetoplasmon is an emergent chiral bosonic mode promising for studying
electronic quantum optics. While the plasmon transport has been investigated with various …

Over the past 20 years, many efforts have been made to understand and control
decoherence in 2D electron systems. In particular, several types of electronic interferometers …

Recent developments in the coherent manipulation of electrons in ballistic conductors
include the generation of time-periodic electrical currents involving one to few electronic …

The coherent energy transfer between two quantum devices (a quantum charger and a
quantum battery) mediated by a photonic cavity is investigated, in presence of dissipative …

Quantum Hall systems are platforms of choice to study topological properties of condensed
matter systems and anyonic exchange statistics. In this work we have developed a tunable …