Angular analysis of B K* e+ e- in the low-q2 region with new electron identification at Belle

Abstract

We perform an angular analysis of the B K* e+ e- decay for the dielectron mass squared, q2, range of 0.0008 to 1.1200 ~GeV2 /c4 using the full Belle data set in the K*0 K+ π- and K*+ KS0 π+ channels, incorporating new methods of electron identification to improve the statistical power of the data set. This analysis is sensitive to contributions from right-handed currents from physics beyond the Standard Model by constraining the Wilson coefficients C7(). We perform a fit to the B K* e+ e- differential decay rate and measure the imaginary component of the transversality amplitude to be AT Im = -1.27 0.52 0.12, and the K* transverse asymmetry to be AT(2) = 0.52 0.53 0.11, with FL and AT Re fixed to the Standard Model values. The resulting constraints on the value of C7 are consistent with the Standard Model within a 2σ confidence interval.