Chiral-odd structure of the $N \to Δ$ transition: tensor form factors from QCD light-cone sum rules
Abstract: We present the first direct calculation of the tensor transition form factors (TFFs) of the $N \to Δ$ transition using the QCD light-cone sum rules. The matrix element of the tensor current sandwiched between the nucleon and $Δ$ states is parametrized in terms of four independent form factors, derived from Lorentz covariance, Hermiticity, parity, time-reversal, and the Rarita--Schwinger constraints. The natural-parity character of the $1/2+ \to 3/2+$ channel combined with the spin-$1$ polarization content of the Rarita--Schwinger spinor imposes a trailing $γ_5$ in the parametrization, in analogy with the gravitational $N \to Δ$ case. Using the nucleon distribution amplitudes expanded in wavefunctions of different twists, we compute the four TFFs in the spacelike range $1 \leq Q2 \leq 10$~GeV$2$ for two sets of light-cone input parameters, and extrapolate to the static limit through multipole fit functions. A flavor decomposition into $u$- and $d$-quark contributions reveals three qualitatively distinct patterns among the four TFFs: $d$-quark dominance with $|Fd| \gg |Fu|$ for $F_1$ and $F_2$ -- in marked contrast to the diagonal nucleon tensor charges where the $u$-quark dominates; an antisymmetric flavor structure $Fu \approx -Fd$ for $F_3$, which naturally explains the absence of a stable isoscalar sum rule for this form factor; and comparable but opposite-sign flavor contributions to $F_4$, with a suppressed isoscalar combination. The TFFs provide chiral-odd information complementary to the electromagnetic and gravitational $N \to Δ$ transitions and offer model-independent input for future analyses of transversity-related transition observables, to be checked against lattice QCD and other phenomenological approaches.
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