2017
DOI: 10.1103/physrevc.96.052201
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Pure spin-3/2 propagator for use in particle and nuclear physics

Abstract: We propose the use of pure spin-3/2 propagator in the (3/2, 0) ⊕ (0, 3/2) representation in particle and nuclear physics. To formulate the propagator in a covariant form we use the antisymmetric tensor spinor representation and we consider the ∆ resonance contribution to the elastic πN scattering as an example. We find that the use of conventional gauge invariant interaction Lagrangian leads to a problem; the obtained scattering amplitude does not exhibit the resonance behavior. To overcome this problem we mod… Show more

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Cited by 15 publications
(16 citation statements)
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“…As in the previous report [9] we can explore the behavior of the pure spin-3/2 propagator by comparing the ∆(1232) resonance contribution to the total cross section of elastic πN scattering, obtained from the pure spin-3/2 propagator and the conventional ones. For this purpose it is important to include the resonance width Γ in the resonance propagator, i.e., by replacing iǫ → iΓm ∆ .…”
Section: Numerical Results and Visualizationmentioning
confidence: 97%
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“…As in the previous report [9] we can explore the behavior of the pure spin-3/2 propagator by comparing the ∆(1232) resonance contribution to the total cross section of elastic πN scattering, obtained from the pure spin-3/2 propagator and the conventional ones. For this purpose it is important to include the resonance width Γ in the resonance propagator, i.e., by replacing iǫ → iΓm ∆ .…”
Section: Numerical Results and Visualizationmentioning
confidence: 97%
“…The next application of our present work is the contribution of spin-3/2 ∆ resonance to the pion photoproduction off a nucleon. As shown in the previous work the choice of inappropriate electromagnetic interaction could fail to generate the correct property of a resonance in the cross section [9]. Thus, in what follows we will calculate the ∆ resonance contribution to the total cross section with a consistent interaction and compare the result with those of previous works.…”
Section: (49)mentioning
confidence: 83%
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“…In future when more data for γp → K + Λ(1690) become available, a serious treatment of the resonance propagators as discussed in Refs. [49,50] will be needed.…”
Section: B Resonance Propagatorsmentioning
confidence: 99%