SUMMARY A perturbative model is studied for the tunneling of many-particle states from the ground band to the first excited energy band, mimicking Landau-Zener decay for ultracold, spinless atoms in quasi-one dimensional optical lattices subjected to a tunable tilting force. The distributions of the computed tunneling rates provide an independent and experimentally accessible signature of the regular-chaotic transition in the strongly correlated many-body dynamics of the ground band
A many body quantum system undergoing multiple resonant tunneling in a double barrier heterostructur...
Going beyond the currently investigated regimes in experiments on quantum transport of ultracold ato...
The dynamics of two correlated bosons hopping on a one-dimensional lattice and driven by a sinusoida...
A perturbative model is studied for the tunneling of many-particle states from the ground band to th...
A perturbative model is studied for the tunneling of many-particle states from the ground band to th...
A perturbative model is studied for the tunneling of many-particle states from the ground band to th...
We study a model for ultracold, spinless atoms in quasi-one-dimensional optical lattices and subject...
We study an experimentally realizable paradigm of complex many-body quantum systems, a two-band Wann...
We study the resonant tunneling effect in a many-body Wannier-Stark system, realized by ultracold bo...
Quantum tunneling is at the heart of many low-temperature phenomena. In strongly correlated lattice ...
In the large-N, classical limit, the Bose-Hubbard dimer undergoes a transition to chaos when its tun...
The divergence of quantum and classical descriptions of particle motion is clearly apparent in quant...
The divergence of quantum and classical descriptions of particle motion is clearly apparent in quant...
In this thesis, we consider complex dynamical evolutions which could be realized experimentally with...
Tunneling is a central result of quantum mechanics. It allows quantum particles to enter regions whi...
A many body quantum system undergoing multiple resonant tunneling in a double barrier heterostructur...
Going beyond the currently investigated regimes in experiments on quantum transport of ultracold ato...
The dynamics of two correlated bosons hopping on a one-dimensional lattice and driven by a sinusoida...
A perturbative model is studied for the tunneling of many-particle states from the ground band to th...
A perturbative model is studied for the tunneling of many-particle states from the ground band to th...
A perturbative model is studied for the tunneling of many-particle states from the ground band to th...
We study a model for ultracold, spinless atoms in quasi-one-dimensional optical lattices and subject...
We study an experimentally realizable paradigm of complex many-body quantum systems, a two-band Wann...
We study the resonant tunneling effect in a many-body Wannier-Stark system, realized by ultracold bo...
Quantum tunneling is at the heart of many low-temperature phenomena. In strongly correlated lattice ...
In the large-N, classical limit, the Bose-Hubbard dimer undergoes a transition to chaos when its tun...
The divergence of quantum and classical descriptions of particle motion is clearly apparent in quant...
The divergence of quantum and classical descriptions of particle motion is clearly apparent in quant...
In this thesis, we consider complex dynamical evolutions which could be realized experimentally with...
Tunneling is a central result of quantum mechanics. It allows quantum particles to enter regions whi...
A many body quantum system undergoing multiple resonant tunneling in a double barrier heterostructur...
Going beyond the currently investigated regimes in experiments on quantum transport of ultracold ato...
The dynamics of two correlated bosons hopping on a one-dimensional lattice and driven by a sinusoida...