458 research outputs found
Measurement of the Zero Crossing in a Feshbach Resonance of Fermionic 6-Li
We measure a zero crossing in the scattering length of a mixture of the two
lowest hyperfine states of 6-Li. To locate the zero crossing, we monitor the
decrease in temperature and atom number arising from evaporation in a CO2 laser
trap as a function of magnetic field B. The temperature decrease and atom loss
are minimized for B=528(4) G, consistent with no evaporation. We also present
preliminary calculations using potentials that have been constrained by the
measured zero crossing and locate a broad Feshbach resonance at approximately
860 G, in agreement with previous theoretical predictions. In addition, our
theoretical model predicts a second and much narrower Feshbach resonance near
550 G.Comment: Five pages, four figure
Laser cooling of a trapped two-component Fermi gas
The collective Raman cooling of a trapped two-component Fermi gas is
analyzed. We develop the quantum master equation that describes the collisions
and the laser cooling, in the festina lente regime, where the heating due to
photon reabsorption can be neglected. The numerical results based on Monte
Carlo simulations show, that three-dimensional temperatures of the order of
0.008 T_F can be achieved. We analyze the heating related to the background
losses, and conclude that our laser-cooling scheme can maintain the temperature
of the gas without significant additional losses. Finally we derive an analytic
expression for the temperature of a trapped Fermi gas heated by background
collisions, that agrees very well with the data obtained from the numerical
simulation.Comment: 5 pages, 3 figure
Pairing of fermions in atomic traps and nuclei
Pairing gaps for fermionic atoms in harmonic oscillator traps are calculated
for a wide range of interaction strengths and particle number, and compared to
pairing in nuclei. Especially systems, where the pairing gap exceeds the level
spacing but is smaller than the shell splitting , are studied
which applies to most trapped Fermi atomic systems as well as to finite nuclei.
When solving the gap equation for a large trap with such multi-level pairing,
one finds that the matrix elements between nearby harmonic oscillator levels
and the quasi-particle energies lead to a double logarithm of the gap, and a
pronounced shell structure at magic numbers. It is argued that neutron and
proton pairing in nuclei belongs to the class of multi-level pairing, that
their shell structure follows naturally and that the gaps scale as - all in qualitative agreement with odd-even staggering of nuclear
binding energies. Pairing in large systems are related to that in the bulk
limit. For large nuclei the neutron and proton superfluid gaps approach the
asymptotic value in infinite nuclear matter: MeV.Comment: 11 pages, 5 figure
Four-Wave mixing in degenerate Fermi gases: Beyond the undepleted pump approximation
We analyze the full nonlinear dynamics of the four-wave mixing between an
incident beam of fermions and a fermionic density grating. We find that when
the number of atoms in the beam is comparable to the number of atoms forming
the grating, the dephasing of that grating, which normally leads to a decay of
its amplitude, is suppressed. Instead, the density grating and the beam density
exhibit large nonlinear coupled amplitude oscillations. In this case four-wave
mixing can persist for much longer times compared to the case of negligible
back-action. We also evaluate the efficiency of the four-wave mixing and show
that it can be enhanced by producing an initial density grating with an
amplitude that is less than the maximum value. These results indicate that
efficient four-wave mixing in fermionic alkali gases should be experimentally
observable.Comment: 9 pages, 8 figure
Rapid sympathetic cooling to Fermi degeneracy on a chip
Neutral fermions present new opportunities for testing many-body condensed
matter systems, realizing precision atom interferometry, producing ultra-cold
molecules, and investigating fundamental forces. However, since their first
observation, quantum degenerate Fermi gases (DFGs) have continued to be
challenging to produce, and have been realized in only a handful of
laboratories. In this Letter, we report the production of a DFG using a simple
apparatus based on a microfabricated magnetic trap. Similar approaches applied
to Bose-Einstein Condensation (BEC) of 87Rb have accelerated evaporative
cooling and eliminated the need for multiple vacuum chambers. We demonstrate
sympathetic cooling for the first time in a microtrap, and cool 40K to Fermi
degeneracy in just six seconds -- faster than has been possible in conventional
magnetic traps. To understand our sympathetic cooling trajectory, we measure
the temperature dependence of the 40K-87Rb cross-section and observe its
Ramsauer-Townsend reduction.Comment: 5 pages, 4 figures (v3: new collision data, improved atom number
calibration, revised text, improved figures.
Serological classification and epitope specificity of Proteus vulgaris TG 251 from Proteus serogroup O65
Crossovers in Unitary Fermi Systems
Universality and crossover is described for attractive and repulsive
interactions where, respectively, the BCS-BEC crossover takes place and a
ferromagnetic phase transition is claimed. Crossovers are also described for
optical lattices and multicomponent systems. The crossovers, universal
parameters and phase transitions are described within the Leggett and NSR
models and calculated in detail within the Jastrow-Slater approximation. The
physics of ultracold Fermi atoms is applied to neutron, nuclear and quark
matter, nuclei and electrons in solids whenever possible. Specifically, the
differences between optical lattices and cuprates is discussed w.r.t.
antiferromagnetic, d-wave superfluid phases and phase separation.Comment: 50 pages, 15 figures. Contribution to Lecture Notes in Physics
"BCS-BEC crossover and the Unitary Fermi Gas" edited by W. Zwerge
Professionalism and person-centredness: developing a practice based approach to leadership within NHS maternity services in the UK
This paper, based on data taken from in-depth interviews with senior midwives and obstetricians and conducted as part of a critical ethnographic study, argues for a greater appreciation of person-centred, value-led midwifery practice. The paper begins with a discussion of the way midwifery practice is shaped by encoded and embodied knowledge. The paper subsequently focuses on an emergent practice based leadership using an adapted Aristotelian conceptual framework derived from MacIntyre (2007). Professional dissonance is highlighted as a difficulty experienced by repositioned managers who are also expected to be leaders in their field. Using data gathered from in-depth interviews it is contended that establishing person-centred care might be better achieved through the development of practice based leadership (rather than solely by adherence to organisational requirements). This type of leadership could potentially nurture a professional environment that promotes qualities, such as agency, commitment and high levels of competence among midwives. Such leadership is central to UK government priorities and is applicable to a global practice development agenda
Superfluid transition in quasi2D Fermi gases
We show that atomic Fermi gases in quasi2D geometries are promising for
achieving superfluidity. In the regime of BCS pairing for weak attraction, we
calculate the critical temperature T_c and analyze possibilities of increasing
the ratio of T_c to the Fermi energy. In the opposite limit, where a strong
coupling leads to the formation of weakly bound quasi2D dimers, we find that
their Bose-Einstein condensate will be stable on a long time scale.Comment: 4 pages, 1 figur
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