Fluidi e superfluidi luminosi
Mechthild Thalhammer- High-order time-splitting spectral methods for Gross–Pitaevskii systems
Cold Chemistry
Numerical simulations of superfluid vortex turbulence Vortex dynamics in superfluid helium and BEC Collaborators: UK W.F. Vinen, C.F. Barenghi Finland.
Dynamics and Statistics of Quantum Turbulence at Low Temperatures Michikazu Kobayashi.
Numerical Method for Computing Ground States of Spin-1 Bose-Einstein Condensates Fong Yin Lim Department of Mathematics and Center for Computational Science.
Spin texture with a topological number Skyrmion is supposed to be topologically stable; Experimentally, it is not stable! Critical re-examination of.
1 Enikö Madarassy Vortex motion in trapped Bose-Einstein condensate Durham University, March, 2007.
Modulational instability of a trapped Bose-Einstein condensate with two- and three-body interactions Mohamadou Alidou In collaboration with Etienne WambaTimoleon.
Centre for Quantum Physics & Technology, Clarendon Laboratory, University of Oxford. Dieter Jaksch (University of Oxford, UK) Bose-Einstein condensates.
O n t h e T r a c k o f M o d e r n P h y s i c s current magnetic field trapped atoms Cooling,by collisions: a ruby “atom” in "melassa" of photons (here.
Conference Summary August 6, 2006