80 research outputs found
BCS pairing in fully repulsive fermion mixtures
We consider a mixture of two neutral cold Fermi gases with repulsive
interactions. We show that in some region of the parameter space of the system
the effective attraction between fermions of the same type can appear due to
the exchange of collective excitations. This leads to the formation of BCS
pairing in the case where bare inter-atomic interactions are repulsive
Critical Temperature Curve in the BEC-BCS Crossover
The strongly-correlated regime of the BCS-BEC crossover can be realized by
diluting a system of two-component fermions with a short-range attractive
interaction. We investigate this system via a novel continuous-space-time
diagrammatic determinant Monte Carlo method and determine the universal curve
for the transition temperature between the normal and the
superfluid states as a function of the scattering length with the maximum on
the BEC side. At unitarity, we confirm that .Comment: revtex, 4 pages, 3 figures, published versio
On the Coexistence of Diagonal and off-Diagonal Long-Range Order, a Monte Carlo Study
The zero temperature properties of interacting 2 dimensional lattice bosons
are investigated. We present Monte Carlo data for soft-core bosons that
demonstrate the existence of a phase in which crystalline long-range order and
off-diagonal long-range order (superfluidity) coexist. We comment on the
difference between hard and soft-core bosons and compare our data to mean-field
results that predict a larger coexistence region. Furthermore, we determine the
critical exponents for the various phase transitions.Comment: 7 pages and 8 figures appended in postscript, KA-TFP-93-0
SearchCal: a Virtual Observatory tool for searching calibrators in optical long baseline interferometry. I: The bright object case
In long baseline interferometry, the raw fringe contrast must be calibrated
to obtain the true visibility and then those observables that can be
interpreted in terms of astrophysical parameters. The selection of suitable
calibration stars is crucial for obtaining the ultimate precision of
interferometric instruments like the VLTI. We have developed software SearchCal
that builds an evolutive catalog of stars suitable as calibrators within any
given user-defined angular distance and magnitude around the scientific target.
We present the first version of SearchCal dedicated to the bright-object case
V<=10; K<=5). Star catalogs available at the CDS are consulted via web
requests. They provide all the useful information for selecting of calibrators.
Missing photometries are computed with an accuracy of 0.1 mag and the missing
angular diameters are calculated with a precision better than 10%. For each
star the squared visibility is computed by taking the wavelength and the
maximum baseline of the foreseen observation into account.} SearchCal is
integrated into ASPRO, the interferometric observing preparation software
developed by the JMMC, available at the address: http://mariotti.fr
Mechanism of spin-triplet superconductivity in Sr2RuO4
The unique Fermi surfaces and their nesting properties of Sr2RuO4 are
considered. The existence of unconventional superconductivity is shown
microscopically, for the first time, from the magnetic interactions (due to
nesting) and the phonon-mediated interactions. The odd-parity superconductivity
is favored in the and sheets of the Fermi surface, and the
various superconductivities are possible in the sheet. There are a
number of possible odd-parity gaps, which include the gaps with nodes, the
breaking of time-reversal symmetry and .Comment: 4 pages, 3 figure
Quantitative Raman measurements of the evolution of the Cooper-pairs density with doping in Bi2Sr2CaCu2O8+d superconductors
We report Raman measurements on Bi2Sr2CaCu2O8+d single crystals which allow
us to quantitavely evaluate the doping dependence of the density of Cooper
pairs in the superconducting state. We show that the drastic loss of Cooper
pairs in the antinodal region as the doping level is reduced, is concomitant
with a deep alteration of the quasiparticles dynamic above Tc and consistent
with a pseudogap which competes with superconductivity. Our data also reveal
that the overall density of Cooper pairs evolves with doping, distinctly from
the superfluid density above the doping level pc=0.2.Comment: 3 figure
Cavity cooling of a nanomechanical resonator by light scattering
We present a novel method for opto-mechanical cooling of sub-wavelength sized
nanomechanical resonators. Our scheme uses a high finesse Fabry-Perot cavity of
small mode volume, within which the nanoresonator is acting as a
position-dependant perturbation by scattering. In return, the back-action
induced by the cavity affects the nanoresonator dynamics and can cool its
fluctuations. We investigate such cavity cooling by scattering for a nanorod
structure and predict that ground-state cooling is within reach.Comment: 4 pages, 3 figure
STIRAP transport of Bose-Einstein condensate in triple-well trap
The irreversible transport of multi-component Bose-Einstein condensate (BEC)
is investigated within the Stimulated Adiabatic Raman Passage (STIRAP) scheme.
A general formalism for a single BEC in M-well trap is derived and analogy
between multi-photon and tunneling processes is demonstrated. STIRAP transport
of BEC in a cyclic triple-well trap is explored for various values of detuning
and interaction between BEC atoms. It is shown that STIRAP provides a complete
population transfer at zero detuning and interaction and persists at their
modest values. The detuning is found not to be obligatory. The possibility of
non-adiabatic transport with intuitive order of couplings is demonstrated.
Evolution of the condensate phases and generation of dynamical and geometric
phases are inspected. It is shown that STIRAP allows to generate the
unconventional geometrical phase which is now of a keen interest in quantum
computing.Comment: 9 pages, 6 figures. To be published in Laser Physics (v. 19, n.4,
2009
New insights into the phase diagram of the copper oxide superconductors from electronic Raman scattering
The Adiabatic Transport of Bose-Einstein Condensates in a Double-Well Trap: Case a Small Nonlinearity
A complete adiabatic transport of Bose-Einstein condensate in a double-well
trap is investigated within the Landau-Zener (LZ) and Gaussian Landau-Zener
(GLZ) schemes for the case of a small nonlinearity, when the atomic interaction
is weaker than the coupling. The schemes use the constant (LZ) and
time-dependent Gaussian (GLZ) couplings. The mean field calculations show that
LZ and GLZ suggest essentially different transport dynamics. Significant
deviations from the case of a strong coupling are discussed.Comment: 6 pages, 3 figures, to be published in Laser Physic
- …