Title :
Pairing effects in ultra-cold fermionic lithium
Author :
McKcever, J. ; Tarruell, L. ; Teichmarm, M. ; Chevy, F. ; Zhang, J. ; Khaykovich, L. ; van Kemperi, E.G.M. ; Kokkelmans, S.J.J.M.F. ; Salomon, C.
Author_Institution :
Lab. Kastler Brossel, Ecole Normale Superieure, Paris, France
Abstract :
Experiments on ultra-cold fermionic 6Li confined in a crossed dipole trap. 6Li possesses Feshbach resonances both in the s-wave and p-wave channels. This features enables the exploration of both s-wave and p-wave pairing mechanisms. We first discuss our observation of Bose-Einstein condensation of 6Li2 molecules in the low-magnetic field wing the s-wave Feshbach located at ∼ 834 G. The molecular BEC offers a good starting point for the exploration of the BEC-BCS (Bardeen-Cooper-Schrieffer) crossover. We have also located p-wave Feshbach resonances in the two lowest hyperfine states of 6Li. The experimental positions of these resonances are in good agreement with those predicted by coupled channel calculations. We have studied the atom losses close to these resonances and have developed a semi-analytical model capturing our experimental findings.
Keywords :
BCS theory; Bose-Einstein condensation; fermion systems; hyperfine structure; laser cooling; lithium; resonant states; BEC-BCS crossover; Bardeen-Cooper-Schrieffer; Bose-Einstein condensation; Feshbach resonances; Li; coupled channel calculations; crossed dipole trap; hyper fine states; pairing effects; ultracold fermionic lithium; Gallium nitride; Gases; Land surface temperature; Lithium; Magnetic fields; Magnetic resonance; Magnetic variables control; Particle scattering; Physics; Stationary state;
Conference_Titel :
Quantum Electronics Conference, 2005. EQEC '05. European
Print_ISBN :
0-7803-8973-5
DOI :
10.1109/EQEC.2005.1567386
