BibTeX
CSL-JSON
MLA
Harvard
Density of States Driven Anisotropies Induced by Momentum Decoupling in
High-Tc Superconductors
release_2z362ee73zesfli4md72odafqu
by
G. Varelogiannis,
A. Perali,
E. Cappelluti,
L. Pietronero
Released
as a article
.
1995
Abstract
Momentum decoupling arises when small momentum transfer processes dominate
the electron-phonon scattering and implies that anisotropies in
superconductivity are driven by the anisotropies of the density of states.
Considering an isotropic s-wave interaction in the momentum decoupling regime
we give a natural simultaneous explanation to various aspects of ARPES and
tunnel experiments on Bi_2Sr_2CaCu_2O_8, including the correlation of gap
magnitude and visibility of the dip above the gap, the enhancement of
anisotropy with temperature, the presence of gap minima away from the
Γ-X direction and a gap maximum in the Γ-X direction, the
similarity of tunnel and ARPES spectra in the Γ-M̅ direction and
the asymmetry in the SIN tunnel spectra where the dip structure is present only
at negative sample bias.
In text/plain format
Archived Content
There are no accessible files associated with this release. You could check other releases for this work for an accessible version.
"Dark" Preservation Only
Save Paper Now!
Know of a fulltext copy of on the public web? Submit a URL and we will archive it
arXiv
cond-mat/9507052v1
Work Entity
access all versions, variants, and formats of this works (eg, pre-prints)
access all versions, variants, and formats of this works (eg, pre-prints)
Cite This
Lookup Links