Wednesday, May 23, 2012

1205.4842 (V. N. Pilipchuk)

Classical resonance interactions and Josephson junction in macroscopic
quantum dynamics
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V. N. Pilipchuk
It is shown that the classical dynamics of 1:1 resonance interaction between two identical linearly coupled Duffing oscillators is equivalent to the symmetric (non-biased) case of `macroscopic' quantum dynamics of two weakly coupled Bose-Einstein condensates. The analogy develops through the boson Josephson junction equations, however, reduced to a single conservative energy partition (EP) oscillator. The derived oscillator is solvable in quadratures, furthermore it admits asymptotic solution in terms of elementary functions after transition to the action-angle variables. Energy partition and coherency indexes are introduced to provide a complete characterization of the system dynamic states through the state variables of the EP oscillator. In particular, nonlinear normal and local mode dynamics of the original system associate with equilibrium points of such oscillator. Additional equilibrium points - the local modes - may occur on high energy level as a result of the symmetry breaking bifurcation, which is equivalent to the macroscopic quantum self-trapping effect in boson Josephson junction. Finally, since the Hamiltonian of EP oscillator is always quadratic with respect its linear momentum, the idea of second quantization can be explored without usual transition to the rigid pendulum approximation.
View original: http://arxiv.org/abs/1205.4842

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