Nucleon to Delta transition form factors with $N_F=2+1$ domain wall fermions

A. Tsapalis (Hellenic Naval Academy & National Techn. Univ. of Athens); C. Alexandrou (Univ. of Cyprus & Cyprus Inst.); G. Koutsou (Univ. of Wuppertal & JSC); J. W. Negele (MIT); Y. Proestos (Cyprus Inst.)

arxiv: 1011.3233 · v1 · pith:PZ5YUBRNnew · submitted 2010-11-14 · ✦ hep-lat · nucl-ex· nucl-th

Nucleon to Delta transition form factors with N_F=2+1 domain wall fermions

C. Alexandrou (Univ. of Cyprus & Cyprus Inst.) , G. Koutsou (Univ. of Wuppertal & JSC) , J. W. Negele (MIT) , Y. Proestos (Cyprus Inst.) , A. Tsapalis (Hellenic Naval Academy & National Techn. Univ. of Athens) This is my paper

classification ✦ hep-lat nucl-exnucl-th

keywords formfactorselectromagneticaxialdeltadipoledomaindominant

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We calculate the electromagnetic, axial and pseudo-scalar form factors of the Nucleon to $\Delta(1232)$ transition using two dynamical light degenerate quarks and a dynamical strange quark simulated with the domain wall fermion action. Results are obtained at lattice spacings $a = 0.114$ fm and $a=0.084$ fm, with corresponding pion masses of $330$ MeV and $297$ MeV, respectively. High statistics measurements are achieved by utilizing the coherent sink technique. The dominant electromagnetic dipole form factor, the axial form factors and the pseudo-scalar coupling are extracted to a good accuracy. This allows the investigation of the non-diagonal Goldberger-Treiman relation. Particular emphasis is given on the extraction of the sub-dominant electromagnetic quadrupole form factors and their ratio to the dominant dipole form factor, $R_{EM}$ and $R_{SM}$, measured in experiment.

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