Quantum-Fluctuation-Driven Coherent Spin Dynamics in Small Condensates
arXiv:0806.1220 · doi:10.1103/PhysRevA.78.050701
Abstract
We have studied quantum spin dynamics of small condensates of cold sodium atoms. For a condensate initially prepared in a mean field ground state, we show that coherent spin dynamics are {\em purely} driven by quantum fluctuations of collective spin coordinates and can be tuned by quadratic Zeeman coupling and magnetization. These dynamics in small condensates can be probed in a high-finesse optical cavity where temporal behaviors of excitation spectra of a coupled condensate-photon system reveal the time evolution of populations of atoms at different hyperfine spin states.
4 pages, 3 figures