New Sum Rules for the $B_c \to J/\psi$ Form Factors

TL;DR

This paper derives new sum rules for the form factors of the semileptonic decay $B_c o J/ o u_$, reducing non-perturbative inputs to the $B_c$ decay constant and calculating form factors at space-like momentum transfer.

Contribution

It introduces novel sum rules for $B_c o J/$ form factors using a vacuum-to-$B_c$ correlation function and a local OPE valid at leading power.

Findings

Derived new sum rules for $B_c o J/$ form factors.

Reduced non-perturbative input to $B_c$ decay constant.

Calculated form factors at space-like momentum transfer.

Abstract

We derive new sum rules for the form factors of the $B_c\to J/\psi\, \ell \bar{\nu}_\ell$ semileptonic transitions, employing the vacuum-to-$B_c$ correlation function of the $J/\psi$-interpolating and $b\to c$ weak currents. In the heavy quark limit and at a space-like momentum transfer to the weak current, a local operator-product expansion is valid for this correlation function. As a result, in the leading power, the non-perturbative input is reduced to the decay constant of $B_c$ meson. Furthermore, applying hadronic dispersion relation in the $J/\psi$ channel, we find that a non-vanishing OPE spectral density in the duality interval of $J/\psi$ emerges only at $\mathcal{O}(\alpha_s)$. We calculate this density in the relevant kinematic regime. The $B_c\to J/\psi$ form factors at space-like momentum transfer are then calculated from the new sum rules.