11,790 research outputs found
Normal state diamagnetism of charged bosons in cuprate superconductors
Normal state orbital diamagnetism of charged bosons quantitatively accounts
for recent high-resolution magnetometery results near and above the resistive
critical temperature Tc of superconducting cuprates. Our parameter-free
descriptions of normal state diamagnetism, Tc, upper critical fields and
specific heat anomalies unambiguously support the 3D Bose-Einstein condensation
at Tc of preformed real-space pairs with zero off-diagonal order parameter
above Tc, at variance with phase fluctuation (or vortex) scenarios of the
"normal" state of cuprates.Comment: 10 pages, 4 figure
Non local Andreev reflection in a carbon nanotube superconducting quantum interference device
We investigate a superconducting quantum interference device (SQUID) based on
carbon nanotubes in a fork geometry [J.-P. Cleuziou {\it et al.}, Nature
Nanotechnology {\bf 1}, 53 (2006)], involving tunneling of evanescent
quasiparticles through a superconductor over a distance comparable to the
superconducting coherence length, with therefore ``non local'' processes
generalizing non local Andreev reflection and elastic cotunneling. Non local
processes induce a reduction of the critical current and modify the
current-phase relation. We discuss arbitrary interface transparencies. Such
devices in fork geometries are candidates for probing the phase coherence of
crossed Andreev reflection.Comment: 13 pages, 8 figures, revised versio
Separated spin-up and spin-down evolution of degenerated electrons in two dimensional systems: Dispersion of longitudinal collective excitations in plane and nanotube geometry
Applying the separated spin evolution quantum hydrodynamics to
two-dimensional electron gas in plane samples and nanotubes located in external
magnetic fields we find new kind of wave in electron gas, which is called the
spin-electron acoustic wave. Separate spin-up electrons and spin-down electrons
evolution reveals in replacement of the Langmuir wave by the couple of hybrid
waves. One of two hybrid waves is the modified Langmuir wave. Another hybrid
wave is the spin-electron acoustic wave. We study dispersion of these waves in
two dimensional structures of electrons. We also consider dependence of
dispersion properties on spin polarisation of electrons in external magnetic
field.Comment: 5 pages, 5 figure
Semiclassical Approach to Competing Orders in Two-leg Spin Ladder with Ring-Exchange
We investigate the competition between different orders in the two-leg spin
ladder with a ring-exchange interaction by means of a bosonic approach. The
latter is defined in terms of spin-1 hardcore bosons which treat the N\'eel and
vector chirality order parameters on an equal footing. A semiclassical approach
of the resulting model describes the phases of the two-leg spin ladder with a
ring-exchange. In particular, we derive the low-energy effective actions which
govern the physical properties of the rung-singlet and dominant vector
chirality phases. As a by-product of our approach, we reveal the mutual
induction phenomenon between spin and chirality with, for instance, the
emergence of a vector-chirality phase from the application of a magnetic field
in bilayer systems coupled by four-spin exchange interactions.Comment: 15 pages, 9 figure
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