Nonrelativistic and Relativistic Coulomb Amplitude as the Matrix Element of a Rotation in $O (4, 2)$

15 February 1971

journal article
research article
Published by American Physical Society (APS) in Physical Review D

Vol. 3 (4) , 956-959
https://doi.org/10.1103/physrevd.3.956

Abstract

It is shown that the Coulomb amplitude is the matrix element of the group element

e^{i (θ + π) J 2}

evaluated in a continuous basis in

SO (4, 2)

. The method is applied to the relativistic Kepler problem without spins, but with the recoil corrections included. The form of the amplitude for this case is believed to be new.

Keywords

This publication has 10 references indexed in Scilit:

Bremsstrahlung in Coulomb Field—An Exact Regge-Multiperipheral Production Amplitude
Physical Review D, 1971
Relativistic Quantum Mechanics of Two Interacting Particles
Physical Review D, 1970
Three-Dimensional Formulation of the Relativistic Two-Body Problem and Infinite-Component Wave Equations
Physical Review D, 1970
Relativistic Balmer Formula Including Recoil Effects
Physical Review D, 1970
Relativistic infinite-component wave equation for H-Atom with spin
Physics Letters A, 1969
Theory of the Relativistic H Atom and Positronium
Physical Review B, 1969
Group Formulation of Potential Scattering
Journal of Mathematical Physics, 1967
Algebraic Calculation of Nonrelativistic Coulomb Phase Shifts
Journal of Mathematical Physics, 1967
Symmetry Group of the Hydrogen Atom
Journal of Mathematical Physics, 1967
Coulomb Green's Function
Journal of Mathematical Physics, 1964

Nonrelativistic and Relativistic Coulomb Amplitude as the Matrix Element of a Rotation inO(4,2)

Abstract

Keywords

Nonrelativistic and Relativistic Coulomb Amplitude as the Matrix Element of a Rotation in $O (4, 2)$