Angular Momentum Approach Research Articles

Complex angular momentum approach to optical model of elastic scattering

Analytical properties and polology of the partial-wave amplitude for a complex potential with Saxon-Wood radial form are investigated. Various Regge-type representations are studied and the applicability of the complex angular momentum approach to the optical model of elastic scattering is examined using a set of typical optical-model calculations.

Vortices in an Imperfect Bose Gas. I. The Condensate

A theoretical study of rectilinear vortices in an imperfect Bose gas shows a close correspondence with classical hydrodynamics. The energy and momentum of a vortex pair in an unbounded fluid are calculated. The similarity between a vortex pair and a vortex ring leads to an estimate of the critical velocity ${v}_{c}$ of liquid He II in a tube of radius $R$ that includes the effect of the walls ${v}_{c}=\frac{C\ensuremath{\hbar}}{2mR}$, where $C$ is a constant of order unity. A variational treatment of a system of many identical vortices in a container shows that the energy is lowest for a uniform distribution, and that the number of vortices per unit area $\ensuremath{\nu}$ agrees with Feyman's result $\ensuremath{\nu}=\frac{2m\ensuremath{\omega}}{h}$. In the classical limit ($h\ensuremath{\rightarrow}0$), the angular momentum and energy approach the values for solid-body rotation.