Exact Solution of Bogoliubov Equations for Bosons in One-Dimensional Piecewise Constant Potential
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We show that Bogoliubov equations in one-dimensional systems with piecewise constant potentials can be always solved. In particular, we analyze in detail the case where the condensate wavefunction is a real-valued function, and give the explicit expressions for wavefunctions of Bogoliubov excitations. By means of these solutions, we consider transmission and reflection properties of Bogoliubov excitations for two types of potential, namely, a rectangular barrier and a potential step. The results yield simple and exact examples of anomalous tunneling effect and quantum evaporation.
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Anomalous minimization for critical velocity of superflow along a step potential
Simplified step-potential model shows critical velocity of BEC superflow minimized to zero at local condensation transition with v_c scaling as L_x to the power -0.963.
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