1992
DOI: 10.1103/physrevd.46.5117
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Nonperturbative solution of two-body Dirac equations for quantum electrodynamics and related field theories

Abstract: In quark-model calculations of the meson spectrum, fully covariant two-body Dirac equations dictated by Dirac's relativistic constraint mechanics gave a good fit to the entire meson mass spectrum (excluding flavor mixing) with constituent world scalar and vector potentials depending on just one or two parameters. In this paper, we investigate the properties of these equations that made them work so well by solving them numerically for quantum electrodynamics (QED) and related field theories. The constraint for… Show more

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Cited by 54 publications
(149 citation statements)
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“…We also list those aspects particularly related to the pion and its Goldstone boson behavior. The constraint formalism, unlike most of the other ones that purport to account for the entire meson spectrum, accounts well in standard perturbative approaches as well as in nonperturbative and numerical approaches for the QED bound state spectrum [5]. We emphasize the importance of this by showing the correlation between that agreement for the singlet and triplet positronium systems and the π and ρ states, including the Goldstone behavior of the former.…”
mentioning
confidence: 95%
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“…We also list those aspects particularly related to the pion and its Goldstone boson behavior. The constraint formalism, unlike most of the other ones that purport to account for the entire meson spectrum, accounts well in standard perturbative approaches as well as in nonperturbative and numerical approaches for the QED bound state spectrum [5]. We emphasize the importance of this by showing the correlation between that agreement for the singlet and triplet positronium systems and the π and ρ states, including the Goldstone behavior of the former.…”
mentioning
confidence: 95%
“…Its simplest solution is 5) and requires abandoning x = x 1 − x 2 in favor of x µ 12⊥ = (η µν +P µP ν )(x 1 − x 2 ) ν ≡ η µν ⊥ (x 1 − x 2 ) ν , P µ ≡ P µ √ −P 2 ; P µ = p µ 1 + p µ 2 ; x 12⊥ ·P = 0. (2.6)…”
Section: Constraint Dynamics For Two Classical Spinless Particlesmentioning
confidence: 99%
“…These two results are from a very extensive list of numerically computed spectral [7] showing that the TBDE passes crucial tests, ones not demonstrated in any other relativistic bound state formalism. The importance of numerical tests of the formalisms is not for QED, but rather as reliability tests of the corresponding formalisms, e.g.…”
Section: -3 Jps Conf Proc 010002 (2015)mentioning
confidence: 80%
“…E.g. for the singlet ground state of positronium [7] The difference is also on order of mα 6 . This does not include annihilation diagram (nor radiative corrections).…”
Section: -3 Jps Conf Proc 010002 (2015)mentioning
confidence: 99%
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