Electrons in a lattice exhibit time-periodic motion, known as Bloch oscillation, when subject to an additional static electric field. Here, we show that a corresponding dynamics can occur upon replacing the spatially periodic potential by a time-periodic driving: Floquet oscillations of charge carriers in a spatially homogeneous system. The time lattice of the driving gives rise to Floquet bands that take on the role of the usual Bloch bands. For two different drivings (harmonic driving and periodic kicking through pulses) of systems with linear dispersion we demonstrate the existence of such oscillations, both by directly propagating wave packets and based on a complementary Floquet analysis. The Floquet oscillations feature richer oscilla...
Electrons moving in a tilted periodic potential perform a periodic motion, known as Bloch oscillatio...
We demonstrate that the electronic structure of a material can be deformed into Floquet pseudobands ...
Floquet engineering, modulating quantum systems in a time periodic way, lies at the central part for...
Electrons in a lattice exhibit time-periodic motion, known as Bloch oscillation, when subject to an ...
We demonstrate how to control the spectra and current flow of Dirac electrons in both a graphene she...
Electrons in periodic potentials exhibit oscillatory motion in the presence of an electric field. Su...
External driving is emerging as a promising tool for exploring new phases in quantum systems. The in...
AbstractWe investigate the wave packet dynamics of an electron restricted to a periodic one-dimensio...
The recent creation of novel topological states of matter via periodic driving fields has ...
Motivated by recent experimental implementations of artificial gauge fields for gases of cold atoms,...
The effect of electron-phonon coupling in materials can be interpreted as a dressing of the electron...
We propose optical longitudinal conductivity as a realistic observable to detect light-induced Floqu...
We report Floquet band engineering of long-range transport and direct imaging of Floquet-Bloch bands...
We employ a quantum Liouville equation with relaxation to model the recently observed anomalous Hall...
Electrons moving in a tilted periodic potential perform a periodic motion, known as Bloch oscillatio...
We demonstrate that the electronic structure of a material can be deformed into Floquet pseudobands ...
Floquet engineering, modulating quantum systems in a time periodic way, lies at the central part for...
Electrons in a lattice exhibit time-periodic motion, known as Bloch oscillation, when subject to an ...
We demonstrate how to control the spectra and current flow of Dirac electrons in both a graphene she...
Electrons in periodic potentials exhibit oscillatory motion in the presence of an electric field. Su...
External driving is emerging as a promising tool for exploring new phases in quantum systems. The in...
AbstractWe investigate the wave packet dynamics of an electron restricted to a periodic one-dimensio...
The recent creation of novel topological states of matter via periodic driving fields has ...
Motivated by recent experimental implementations of artificial gauge fields for gases of cold atoms,...
The effect of electron-phonon coupling in materials can be interpreted as a dressing of the electron...
We propose optical longitudinal conductivity as a realistic observable to detect light-induced Floqu...
We report Floquet band engineering of long-range transport and direct imaging of Floquet-Bloch bands...
We employ a quantum Liouville equation with relaxation to model the recently observed anomalous Hall...
Electrons moving in a tilted periodic potential perform a periodic motion, known as Bloch oscillatio...
We demonstrate that the electronic structure of a material can be deformed into Floquet pseudobands ...
Floquet engineering, modulating quantum systems in a time periodic way, lies at the central part for...