Search for C\!P violation and measurement of branching fractions and decay asymmetry parameters for c+ h+ and c+0 h+ (h\!=\!K,\,π)

Abstract

We report a study of c+ h+ and c+0 h+ (h\!=\!K,\,π) decays based on a data sample of 980~ fb-1 collected with the Belle detector at the KEKB energy-asymmetric e+e- collider. The first results of direct C\!P asymmetry in two-body singly Cabibbo-suppressed (SCS) decays of charmed baryons are measured, AC\!Pdir(c+ K+)\!=\!+0.0210.0260.001 and AC\!Pdir(c+0K+)\!=\!+0.0250.0540.004. We also make the most precise measurement of the decay asymmetry parameters (α) for the four modes of interest and search for C\!P violation via the α-induced C\!P asymmetry (AC\!Pα). We measure AC\!Pα(c+ K+)\!=\!-0.0230.0860.071 and AC\!Pα(c+0K+)\!=\!+0.08 0.35 0.14, which are the first AC\!Pα results for SCS decays of charmed baryons. We search for -hyperon C\!P violation in c+(,\,0)π+ and find AC\!Pα( pπ-)\!=\!+0.0130.0070.011. This is the first time that hyperon C\!P violation has been measured via Cabibbo-favored charm decays. No evidence of baryon C\!P violation is found. We also obtain the most precise branching fractions for two SCS c+ decays, B(c+ K+)\!=\!(6.570.170.110.35)×10-4 and B(c+0K+)\!=\!(3.580.190.060.19)×10-4. The first uncertainties are statistical and the second systematic, while the third uncertainties come from the uncertainties on the world average branching fractions of c+(,\,0)π+.