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Approximately relativistic Hamiltonians for interacting particles

Journal Article · · Phys. Rev., D; (United States)
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In the relativistic canonical formalism of Bakamjian and Thomas describing direct particle interactions the generators are defined in terms of the total momentum, the center-of-mass position, and a complete set of additional intrinsic canonical variables. In the interaction region of phase space the transformation linking these variables to individual particle coordinates and momenta is not determined by basic principles. In this paper canonical transformations to single-particle variables valid to order c/sup -2/ and the corresponding approximate Hamiltonians are constructed for a two-particle system; approximate many-body Hamiltonians are then constructed from the two-body ones, maintaining the Lie algebra of the Poincare group to the same order. If, and only if, the nonrelativistic limit of the potential is velocity independent (except for a possible spin-orbit interaction) it is possible to require, to order c/sup -2/, transformation properties of the position operators corresponding to the classical world-line conditions. This requirement implies restrictions on admissible canonical transformations to single-particle variables. The cluster separability condition is then automatically satisfied. In the classical limit the class of approximately relativistic Hamiltonians for spinless particles is identical with that obtained by Woodcock and Havas from expansion of an exact Poincare-invariant Fokker-type variational principle automatically satisfying the world-line conditions. Conversely, direct quantization of their classical Hamiltonians is shown to lead to the approximate quantum-mechanical ones resulting from the Bakamjian-Thomas theory. The relation of these results to various approximately relativistic Hamiltonians built up by several authors starting from the nonrelativistic theory is discussed, as well as their implications for phenomenological nucleon-nucleon potentials. (AIP)

Research Organization:
Physics Division, Argonne National Laboratory, Argonne, Illinois 60439
OSTI ID:
7329874
Journal Information:
Phys. Rev., D; (United States), Journal Name: Phys. Rev., D; (United States) Vol. 14:10; ISSN PRVDA
Country of Publication:
United States
Language:
English

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Related Subjects

645201* -- High Energy Physics-- Particle Interactions & Properties-Theoretical-- General & Scattering Theory
72 PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
CANONICAL TRANSFORMATIONS
CENTER-OF-MASS SYSTEM
ENERGY RANGE
HAMILTONIANS
INTERACTIONS
LIE GROUPS
MANY-BODY PROBLEM
MATHEMATICAL OPERATORS
PARTICLE INTERACTIONS
POINCARE GROUPS
QUANTUM OPERATORS
RELATIVISTIC RANGE
SYMMETRY GROUPS
TWO-BODY PROBLEM
VARIATIONAL METHODS