SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2745695478> ?p ?o ?g. }

Showing items 1 to 100 of ±126 with 100 items per page.

W2745695478 abstract "Low energy effective couplings of baryons' constituent quarks to light vector and axial mesons are derived by considering quark polarization for a dressed one gluon exchange quark interaction. The quark field is splitted into two components, one for background constituent quarks and another one for quark-antiquark states, light mesons and the scalar chiral condensate. By considering a large quark effective mass derivative expansion, several effective coupling constants are resolved as functions of the original model parameters and of components of the quark and gluon propagators. Besides the leading single vector meson-constituent quark gauge-type effective coupling, several two-vector and axial mesons-constituent quark couplings are also obtained in the next leading order. Among these, vector and axial mesons mixings induced by constituent quark currents are found.Approximated and exact ratios between the effective coupling constants in the limit of very large quark effective mass and numerical estimates are exhibited. Numerical results of the corresponding form factors and of the (strong) vector meson quadratic radius are also presented." @default.
W2745695478 created "2017-08-31" @default.
W2745695478 creator A5048610209 @default.
W2745695478 date "2018-03-21" @default.
W2745695478 modified "2023-09-27" @default.
W2745695478 title "Light vector and axial mesons effective couplings to constituent quarks" @default.
W2745695478 cites W1617604743 @default.
W2745695478 cites W1625053673 @default.
W2745695478 cites W1896551775 @default.
W2745695478 cites W1976339978 @default.
W2745695478 cites W1977280352 @default.
W2745695478 cites W1980105242 @default.
W2745695478 cites W1985164783 @default.
W2745695478 cites W1995758984 @default.
W2745695478 cites W1995840649 @default.
W2745695478 cites W1998182723 @default.
W2745695478 cites W2024689292 @default.
W2745695478 cites W2026684282 @default.
W2745695478 cites W2027756199 @default.
W2745695478 cites W2029266772 @default.
W2745695478 cites W2030525013 @default.
W2745695478 cites W2032965352 @default.
W2745695478 cites W2034336432 @default.
W2745695478 cites W2039723054 @default.
W2745695478 cites W2041910124 @default.
W2745695478 cites W2044751082 @default.
W2745695478 cites W2045034650 @default.
W2745695478 cites W2048562088 @default.
W2745695478 cites W2056222011 @default.
W2745695478 cites W2063306217 @default.
W2745695478 cites W2069457914 @default.
W2745695478 cites W2087970005 @default.
W2745695478 cites W2091460949 @default.
W2745695478 cites W2092488504 @default.
W2745695478 cites W2092729843 @default.
W2745695478 cites W2100056482 @default.
W2745695478 cites W2118514342 @default.
W2745695478 cites W2122574578 @default.
W2745695478 cites W2130776923 @default.
W2745695478 cites W2137173946 @default.
W2745695478 cites W2160517949 @default.
W2745695478 cites W2165591715 @default.
W2745695478 cites W2212211680 @default.
W2745695478 cites W2259980017 @default.
W2745695478 cites W2261468398 @default.
W2745695478 cites W2407518796 @default.
W2745695478 cites W2417224605 @default.
W2745695478 cites W2438022322 @default.
W2745695478 cites W2483106155 @default.
W2745695478 cites W2583383122 @default.
W2745695478 cites W2594599755 @default.
W2745695478 cites W2787229155 @default.
W2745695478 cites W3084106382 @default.
W2745695478 cites W3098050185 @default.
W2745695478 cites W3100982167 @default.
W2745695478 cites W3101852293 @default.
W2745695478 cites W3102444066 @default.
W2745695478 cites W3103205785 @default.
W2745695478 cites W3103405540 @default.
W2745695478 cites W3106053579 @default.
W2745695478 cites W4235893598 @default.
W2745695478 cites W4237842471 @default.
W2745695478 doi "https://doi.org/10.1103/physrevd.97.054025" @default.
W2745695478 hasPublicationYear "2018" @default.
W2745695478 type Work @default.
W2745695478 sameAs 2745695478 @default.
W2745695478 citedByCount "8" @default.
W2745695478 countsByYear W27456954782018 @default.
W2745695478 countsByYear W27456954782019 @default.
W2745695478 countsByYear W27456954782020 @default.
W2745695478 countsByYear W27456954782021 @default.
W2745695478 countsByYear W27456954782022 @default.
W2745695478 crossrefType "journal-article" @default.
W2745695478 hasAuthorship W2745695478A5048610209 @default.
W2745695478 hasBestOaLocation W27456954782 @default.
W2745695478 hasConcept C101185895 @default.
W2745695478 hasConcept C109214941 @default.
W2745695478 hasConcept C121332964 @default.
W2745695478 hasConcept C123579102 @default.
W2745695478 hasConcept C12581588 @default.
W2745695478 hasConcept C151449025 @default.
W2745695478 hasConcept C154153549 @default.
W2745695478 hasConcept C176616139 @default.
W2745695478 hasConcept C183276030 @default.
W2745695478 hasConcept C200006409 @default.
W2745695478 hasConcept C207206121 @default.
W2745695478 hasConcept C2779886749 @default.
W2745695478 hasConcept C2779985612 @default.
W2745695478 hasConcept C3079626 @default.
W2745695478 hasConcept C47651286 @default.
W2745695478 hasConcept C7602139 @default.
W2745695478 hasConceptScore W2745695478C101185895 @default.
W2745695478 hasConceptScore W2745695478C109214941 @default.
W2745695478 hasConceptScore W2745695478C121332964 @default.
W2745695478 hasConceptScore W2745695478C123579102 @default.
W2745695478 hasConceptScore W2745695478C12581588 @default.
W2745695478 hasConceptScore W2745695478C151449025 @default.
W2745695478 hasConceptScore W2745695478C154153549 @default.
W2745695478 hasConceptScore W2745695478C176616139 @default.
W2745695478 hasConceptScore W2745695478C183276030 @default.