1,140 research outputs found
Interaction induced Fermi-surface renormalization in the Hubbard model close to the Mott-Hubbard transition
We investigate the nature of the interaction-driven Mott-Hubbard transition
of the half-filled Hubbard model in one dimension, using a
full-fledged variational Monte Carlo approach including a distance-dependent
Jastrow factor and backflow correlations. We present data for the evolution of
the magnetic properties across the Mott-Hubbard transition and on the
commensurate to incommensurate transition in the insulating state. Analyzing
renormalized excitation spectra, we find that the Fermi surface renormalizes to
perfect nesting right at the Mott-Hubbard transition in the insulating state,
with a first-order reorganization when crossing into the conducting state.Comment: 6 pages and 7 figure
Magnetic Field-Induced Lattice Effects in a Quasi-2D Organic Conductor Close to the Mott Metal-Insulator Transition
We present ultra-high-resolution dilatometric studies in magnetic fields on a
quasi-two-dimensional organic conductor
-(D8-BEDT-TTF)Cu[N(CN)]Br, which is located close to the
Mott metal-insulator (MI) transition. The obtained thermal expansion
coefficient, , reveals two remarkable features: (i) the Mott MI
transition temperature = (13.6 0.6)\,K is insensitive to fields
up to 10\,T, the highest applied field; (ii) for fields along the interlayer
\emph{b}-axis, a magnetic-field-induced (FI) phase transition at =
(9.5 0.5)\,K is observed above a threshold field 1 T,
indicative of a spin reorientation with strong magneto-elastic coupling.Comment: 5 pages, 4 figure
Mott metal-insulator transition on compressible lattices
The critical properties of the finite temperature Mott endpoint are
drastically altered by a coupling to crystal elasticity, i.e., whenever it is
amenable to pressure tuning. Similar as for critical piezoelectric
ferroelectrics, the Ising criticality of the electronic system is preempted by
an isostructural instability, and long-range shear forces suppress microscopic
fluctuations. As a result, the endpoint is governed by Landau criticality. Its
hallmark is thus a breakdown of Hooke's law of elasticity with a non-linear
strain-stress relation characterized by a mean-field exponent. Based on a
quantitative estimate, we predict critical elasticity to dominate the
temperature range DeltaT/Tc ~ 8% close to the Mott endpoint of
kappa-(BEDT-TTF)2X.Comment: 4 pages, 6 figure
Formation of dispersive hybrid bands at an organic-metal interface
An electronic band with quasi-one dimensional dispersion is found at the
interface between a monolayer of a charge-transfer complex (TTF-TCNQ) and a
Au(111) surface. Combined local spectroscopy and numerical calculations show
that the band results from a complex mixing of metal and molecular states. The
molecular layer folds the underlying metal states and mixes with them
selectively, through the TTF component, giving rise to anisotropic hybrid
bands. Our results suggest that, by tuning the components of such molecular
layers, the dimensionality and dispersion of organic-metal interface states can
be engineered
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