In recent years, the study of heat to work conversion has been re-invigorated by
nanotechnology. Steady-state devices do this conversion without any macroscopic moving …

In this report we review the present state of the art of the control of propagating quantum
states at the single-electron level and its potential application to quantum information …

Anyons are quasiparticles that, unlike fermions and bosons, show fractional statistics when
two of them are exchanged. Here, we report the experimental observation of anyonic …

The edge channels of the quantum Hall effect provide one dimensional chiral and ballistic
wires along which electrons can be guided in an optics‐like setup. Electronic propagation …

The quantum Hall (QH) effect represents a unique playground where quantum coherence of
electrons can be exploited for various applications, from metrology to quantum computation …

Coulomb interactions have a major role in one-dimensional electronic transport. They
modify the nature of the elementary excitations from Landau quasiparticles in higher …

Quantum Hall edge channels at integer filling factor provide a unique test bench to
understand the decoherence and relaxation of single-electron excitations in a ballistic …

Recent electron quantum optics experiments performed with on-demand single electron
sources call for a mixed time/frequency approach to electronic quantum coherence. Here …

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

The quantum coherence of electronic quasiparticles underpins many of the emerging
transport properties of conductors at small scales. Novel electronic implementations of …