Phase shifts for singular type nucleon-nucleon triplet-even potentials

“…Applications of Struve functions are manyfold and include among others optical investigations [60, pp. 392-395]; general expression of the power carried by a transverse magnetic or electric beam, is given in terms of L n+ 1 2 [2]; triplet phase shifts of the scattering by the singular nucleon-nucleon potentials ∝ exp(−x)/x n [20]; leakage inductance in transformer windings [26]; boundary element solutions of the two-dimensional multi-energy-group neutron diffusion equation which governs the neutronic phenomena in nuclear reactors [27]; effective isotropic potential for a pair of dipoles [36]; perturbation approximations of lee-waves in a stratified flow [37]; quantum-statistical distribution functions of a hard-sphere system [42]; scattering of plane waves by circular cylinders for the general case of oblique incidence and for both real and complex values of particle refractive index [54]; aerodynamic sensitivities for subsonic, sonic, and supersonic unsteady, non-planar lifting-surface theory [14]; stress concentration around broken filaments [19] and lift and downwash distributions of oscillating wings in subsonic and supersonic flow [61,62].…”

Integral representations and summations of the modified Struve function

“…Applications of Struve functions are manyfold and include among others optical investigations [60, pp. 392-395]; general expression of the power carried by a transverse magnetic or electric beam, is given in terms of L n+ 1 2 [2]; triplet phase shifts of the scattering by the singular nucleon-nucleon potentials ∝ exp(−x)/x n [20]; leakage inductance in transformer windings [26]; boundary element solutions of the two-dimensional multi-energy-group neutron diffusion equation which governs the neutronic phenomena in nuclear reactors [27]; effective isotropic potential for a pair of dipoles [36]; perturbation approximations of lee-waves in a stratified flow [37]; quantum-statistical distribution functions of a hard-sphere system [42]; scattering of plane waves by circular cylinders for the general case of oblique incidence and for both real and complex values of particle refractive index [54]; aerodynamic sensitivities for subsonic, sonic, and supersonic unsteady, non-planar lifting-surface theory [14]; stress concentration around broken filaments [19] and lift and downwash distributions of oscillating wings in subsonic and supersonic flow [61,62].…”

Integral representations and summations of the modified Struve function