An effective approach to VMD at one loop order and the departures from ideal mixing for vector mesons

Abstract: We examine the mechanisms producing departures from ideal mixing for vector mesons within the context of the Hidden Local Symmetry (HLS) model. We show that kaon loop transitions between the ideal combinations of the ω and φ mesons necessitate a field transformation in order to get the mass eigenstates. It is shown that this transformation is close to a rotation for processes involving, like meson decays, on-shell ω and φ mesons. The HLS model predicts a momentum dependent, slowly varying mixing angle between … Show more

“…This can be derived by resumming formally an obvious infinite series of terms, each containing bare propagators and loops (Referred to in [4] as Dyson-Schwinger Summation). This expression can also be obtained by adding an effective piece [20] to the HLS Lagrangian of the form Π ρρ (s)ρ 2 /2, which turns out to modify the vector meson mass term by a s−dependent piece. The (dressed) ρ propagator is derived from this effective Lagrangian at tree level.…”

“…These loops should be subtracted minimally twice (P P ) or three times (V P ) from requiring the corresponding Dispersion integrals [20] to be convergent. Therefore, in the full HLS Model (non-anomalous and anomalous sectors), the subtraction polynomials must be at least second degree in s and we can write :…”

“…Loop effects cannot be avoided in problems where the ρ meson plays a crucial role. These will be considered in the framework of the one-loop order treatment proposed in [20]. Doing this way, one limits the possible couplings by neglecting intermediate states with more than two particles which generate multiparticle loops ; these are expected to produce small effects [4].…”

The pion form factor within the hidden local symmetry model

“…This can be derived by resumming formally an obvious infinite series of terms, each containing bare propagators and loops (Referred to in [4] as Dyson-Schwinger Summation). This expression can also be obtained by adding an effective piece [20] to the HLS Lagrangian of the form Π ρρ (s)ρ 2 /2, which turns out to modify the vector meson mass term by a s−dependent piece. The (dressed) ρ propagator is derived from this effective Lagrangian at tree level.…”

“…These loops should be subtracted minimally twice (P P ) or three times (V P ) from requiring the corresponding Dispersion integrals [20] to be convergent. Therefore, in the full HLS Model (non-anomalous and anomalous sectors), the subtraction polynomials must be at least second degree in s and we can write :…”

“…Loop effects cannot be avoided in problems where the ρ meson plays a crucial role. These will be considered in the framework of the one-loop order treatment proposed in [20]. Doing this way, one limits the possible couplings by neglecting intermediate states with more than two particles which generate multiparticle loops ; these are expected to produce small effects [4].…”

The pion form factor within the hidden local symmetry model

“…In this work, we will not make use of such non-perturbative methods, and restrict ourselves to the one-loop level of perturbation theory to study the quark mass dependence of the vector meson self-energies. For some earlier studies of vector meson selfenergies on the one-loop level, outside the framework of ChPT, we refer to [41][42][43][44].…”

Chiral behavior of vector meson self-energies

“…It indeed happens that the radiative decays (P V γ and P γγ), which are accounted for by the anomalous sector [21] of the HLS Lagrangian, depend on a large part of the parameters involved in our model and can serve to fix them quite reliably, even by fitting them in isolation [22,23]. If one adds to this data set the leptonic decay information for the ω and φ mesons on the one hand, and two-pion decay information of the φ meson on the other hand, the minimization program becomes numerically well defined.…”

The dipion mass spectrum in annihilation and τ decay: Isospin Symmetry breaking effects from the (ρ, ω, ϕ) mixing