Nonequilibrium Quantum Magnetism in a Dipolar Lattice Gas
... much larger difference between the scattering lengths of the relevant collision channels. We also observe a much stronger damping (of about 2 kHz) than in Refs. [40,43]. At longer time scales (see Fig. 3) the observed spin oscillations present a characteristic frequency much smaller than that of the ...
... much larger difference between the scattering lengths of the relevant collision channels. We also observe a much stronger damping (of about 2 kHz) than in Refs. [40,43]. At longer time scales (see Fig. 3) the observed spin oscillations present a characteristic frequency much smaller than that of the ...
Nature physics
... increasingly stronger relative to their kinetic energy, the system becomes strongly interacting and, in general, can no longer be described as a simple matter wave. The resulting strongly correlated quantum states are difficult to handle theoretically, and are extremely challenging for modern conden ...
... increasingly stronger relative to their kinetic energy, the system becomes strongly interacting and, in general, can no longer be described as a simple matter wave. The resulting strongly correlated quantum states are difficult to handle theoretically, and are extremely challenging for modern conden ...
Periodic orbit analysis of molecular vibrational spectra: Spectral
... structure.25 Each vibrational polyad can be located in one of four ‘‘zones’’ representing a distinct kind of phase space morphology, and the system can pass from one zone to another by variation of parameters such as coupling strengths and polyad number.26,27 Our po analysis of the Fermi resonant sy ...
... structure.25 Each vibrational polyad can be located in one of four ‘‘zones’’ representing a distinct kind of phase space morphology, and the system can pass from one zone to another by variation of parameters such as coupling strengths and polyad number.26,27 Our po analysis of the Fermi resonant sy ...
