High-precision $D^0 \to V^+P^-$ - more accurate than $D^0\to P^+P^-$
arXiv:1410.7255 · doi:10.1103/PhysRevD.90.117901
Abstract
Recently we derived a nonlinear U-spin amplitude relation for $D^0\to P^+P^-$, $P=Ï, K$, predicted to hold up to fourth order U-spin breaking terms of order $10^{-3}$. Here we study a similar relation for $D^0\to V^+P^-, V =Ï, K^*(892), P = Ï, K$, expected to hold at an even higher accuracy of order $10^{-4}$. We confirm this prediction in spite of a large experimental error of about 20% in the amplitude of $D^0\to K^{*+}Ï^-$. We also comment briefly on U-spin breaking in $D^0\to P^+V^-$.
minor addition, to be published in Physical Review D