4,811 research outputs found
Dynamical screening in correlated electron systems - from lattice models to realistic materials
Recent progress in treating the dynamically screened nature of the Coulomb
interaction in strongly correlated lattice models and materials is reviewed
with a focus on computational schemes based on the dynamical mean field
approximation. We discuss approximate and exact methods for the solution of
impurity models with retarded interactions, and explain how these models appear
as auxiliary problems in various extensions of the dynamical mean field
formalism. The current state of the field is illustrated with results from
recent applications of these schemes to U-V Hubbard models and correlated
materials.Comment: invited review article, comments are welcom
Ultrafast separation of photo-doped carriers in Mott antiferromagnets
We use inhomogeneous nonequilibrium dynamical mean-field theory to
investigate the spreading of photo-excited carriers in Mott insulating
heterostructures with strong internal fields. Antiferromagnetic correlations
are found to affect the carrier dynamics in a crucial manner: An
antiferromagnetic spin background can absorb energy from photo-excited carriers
on an ultrafast timescale, thus enabling fast transport between different
layers and the separation of electron and hole-like carriers, whereas in the
paramagnetic state, carriers become localized in strong fields. This interplay
between charge and spin degrees of freedom can be exploited to control the
functionality of devices based on Mott insulating heterostructures with polar
layers, e.g., for photovoltaic applications
Cluster Monte Carlo Algorithms for Dissipative Quantum Systems
We review efficient Monte Carlo methods for simulating quantum systems which
couple to a dissipative environment. A brief introduction of the
Caldeira-Leggett model and the Monte Carlo method will be followed by a
detailed discussion of cluster algorithms and the treatment of long-range
interactions. Dissipative quantum spins and resistively shunted Josephson
junctions will be considered.Comment: to be publushed in Proceedings of the Yukawa Symposium 200
Field-induced polaron formation in the Holstein-Hubbard model
We study the effect of strong DC and pulsed electric fields on a Mott
insulating system with coupling to optical phonons. A DC field of the order of
the gap induces a metallic state characterized by polaronic features in the gap
region and a partially inverted population. In this quasi-steady state, the
field-induced doublon-hole production is balanced by a phonon-enhanced
doublon-hole recombination. The photo-excitation of carriers by a pulsed field
leads to similar modifications of the electronic structure in the gap region,
and an associated reduction of the doublon life-time. We demonstrate that the
field-induced localization of electrons effectively enhances the phonon
coupling, an effect which should be measureable with time-resolved
photoemission spectroscopy
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