doi:10.1088/1367-2630/8/7/110 Abstract. It is well known that a particle in a periodic potential with an additional constant force performs Bloch oscillations. Modulating every second period of the potential, the original Bloch band splits into two sub-bands. The dynamics of quantum particles shows a coherent superposition of Bloch oscillations and Zener tunnelling between the sub-bands, a Bloch–Zener oscillation. Such a system is modelled by a tight-binding Hamiltonian which is a system of two minibands with an easily controllable gap. The dynamics of the system is investigated by using an algebraic ansatz leading to a differential equation of Whittaker–Hill type. It is shown that the parameters of the system can be tuned to generate a per...
It is well known that an electron in a single-band tight-binding lattice coherently driven by an ext...
It has long been known that quantum particles in a periodic lattice exhibit an oscillatory motion th...
The divergence of quantum and classical descriptions of particle motion is clearly apparent in quant...
It is well known that a particle in a periodic potential with an additional constant force performs ...
Abstract. We study the dynamics of Bloch oscillations in a one-dimensional periodic potential plus a...
The dynamics of cold bosonic atoms held in an optical lattice can be profoundly modified by using a ...
Bloch oscillations and Zener tunneling are the two fundamental phenomena associated with the propaga...
A quantum particle in a periodical lattice under the effect of an external homogeneous field shows a...
We present theoretical and numerical results on the dynamics of ultracold atoms in an accelerated si...
Abstract. Bloch oscillations in a two-dimensional periodic potential under a (relatively weak) stati...
More than 60 years ago, Zener has predicted that an electron fit a periodic potential subject to a s...
Electrons moving in a tilted periodic potential perform a periodic motion, known as Bloch oscillatio...
Funding: The Würzburg and Jena group acknowledge financial support within the DFG projects PE 523/18...
A quantum particle subjected to a constant force undergoes an accelerated motion following a parabol...
The Bloch-sphere representation is a rather simple geometric model for all possible quantum states o...
It is well known that an electron in a single-band tight-binding lattice coherently driven by an ext...
It has long been known that quantum particles in a periodic lattice exhibit an oscillatory motion th...
The divergence of quantum and classical descriptions of particle motion is clearly apparent in quant...
It is well known that a particle in a periodic potential with an additional constant force performs ...
Abstract. We study the dynamics of Bloch oscillations in a one-dimensional periodic potential plus a...
The dynamics of cold bosonic atoms held in an optical lattice can be profoundly modified by using a ...
Bloch oscillations and Zener tunneling are the two fundamental phenomena associated with the propaga...
A quantum particle in a periodical lattice under the effect of an external homogeneous field shows a...
We present theoretical and numerical results on the dynamics of ultracold atoms in an accelerated si...
Abstract. Bloch oscillations in a two-dimensional periodic potential under a (relatively weak) stati...
More than 60 years ago, Zener has predicted that an electron fit a periodic potential subject to a s...
Electrons moving in a tilted periodic potential perform a periodic motion, known as Bloch oscillatio...
Funding: The Würzburg and Jena group acknowledge financial support within the DFG projects PE 523/18...
A quantum particle subjected to a constant force undergoes an accelerated motion following a parabol...
The Bloch-sphere representation is a rather simple geometric model for all possible quantum states o...
It is well known that an electron in a single-band tight-binding lattice coherently driven by an ext...
It has long been known that quantum particles in a periodic lattice exhibit an oscillatory motion th...
The divergence of quantum and classical descriptions of particle motion is clearly apparent in quant...