Relativistic formulation of the radiative transition of charmonium and b-quarkonium
In this work we develop a relativistic formalism for calculating the radiative transition rates of a fermion-antifermion bound state. We calculate the radiative decay rates in charmonium and b-quarkonium systems and find them generally in better agreement with experiment than other previous works, in particular for the case of hindered magnetic transition of {psi}{prime}. Our relativistic formalism automatically includes the effect of the recoil of the final bound state or, equivalently, a sum over all multipoles, which is important in mesonic radiative transitions. It also treats both quark and antiquark as four component spinors to given relativistic currents, and includes a natural mixing of L-S terms for a given J and parity. We discover the importance of systematic inclusion of these relativistic effects by comparing our relativistic results with a nonrelativistic calculation. The quark-antiquark interaction at short distances has the form of an asymptotic free vector gluon exchange and its only parameter is {alpha}{sub QCD} or the effective {Lambda}{sub R} for the bound state. At large distances the interaction is an effective scalar exchange which is the linear confining potential, and its slope is found by the fit to the charmonium levels. In the nonrelativisitc limit the interactions reduce to the Richardson potential. This bound state formalism was previously used to calculate the masses and leptonic decay widths of mesons composed of both light and heavy quarks.
- Research Organization:
- California Univ., Irvine, CA (USA)
- OSTI ID:
- 5149297
- Resource Relation:
- Other Information: Thesis (Ph. D.)
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
QUARKONIUM
RADIATIVE DECAY
BEAUTY PARTICLES
CHARMONIUM
COUPLING CONSTANTS
LEPTONIC DECAY
MASS SPECTRA
MESONS
PARTICLE WIDTHS
QUANTUM CHROMODYNAMICS
QUARK-ANTIQUARK INTERACTIONS
RELATIVISTIC RANGE
SPINORS
BASIC INTERACTIONS
BOSONS
DECAY
ELEMENTARY PARTICLES
ENERGY RANGE
FIELD THEORIES
HADRONS
INTERACTIONS
PARTICLE DECAY
PARTICLE INTERACTIONS
PARTICLE PROPERTIES
QUANTUM FIELD THEORY
SPECTRA
WEAK INTERACTIONS
WEAK PARTICLE DECAY
645203* - High Energy Physics- Particle Interactions & Properties-Theoretical- Weak Interactions & Properties