TY  - GEN
Y1  - 2013///
ID  - heidok15136
A1  - Parra Murillo, Carlos Alberto
KW  - Wannier-Stark
KW  -  Optical lattices
KW  -  Quantum Chaos
KW  -  Many-Body Dynamics
CY  - Heidelberg
UR  - https://archiv.ub.uni-heidelberg.de/volltextserver/15136/
AV  - public
TI  - Many-Body Dynamics of Ultracold Atoms in Optical Lattices
N2  - In this work, we study complex many-body systems consisting of ultracold bosonic atoms in optical lattices.Motivated by the state-of-the-art of experiments realizing higher bands physics with ultracold atoms, we use a one-dimensional bichromatic optical lattice, whose properties permit to engineer a very well isolated two-band system. The underlying single- and manyparticle physics is investigated based on a two-band Bose-Hubbard Hamiltonian. An external
Stark force is introduced to drive the inter-band dynamics. In a first, andmain part of thiswork, we numerically characterize ourmany-bodyWannier-Stark systemthrough its spectral and dynamical properties, in terms of important system parameters. We present a detailed study of
the diffusion in Hilbert space. Relaxation and controlled non-adiabatic dynamics are studied by driving the system across the spectral resonances, mainly by using quantum sweeps. In a second part, we implement an effective Hamiltonian in order to characterize the spectral properties
of a leaky one-dimensional optical lattice with controlled dissipation. We show that the stability of long-lived localizedmany-body states, i.e. discrete solitonic states, can be described with good accuracy by the decay rates statistics of the accessible complex energy spectrum of
the effective (non-hermitian)Hamiltonian.
ER  -