6533b7d6fe1ef96bd1266450

RESEARCH PRODUCT

Study of the possible role of triangle singularities in ${B^ - }\, \to {D^{*0}}{\pi ^ - }{\pi ^0}\eta $ and ${B^ - }\, \to {D^{*0}}{\pi ^ - }{\pi ^ + }{\pi ^ - }$

S. SakaiR. PavaoEulogi Oset

subject

PhysicsParticle physicsPionSingularity010308 nuclear & particles physicsBranching fraction0103 physical sciencesHadronPiInvariant massGravitational singularity010306 general physics01 natural sciences

description

Studying the effects of triangle singularities in hadronic processes is of the utmost importance since they can originate peaks that may wrongfully be associated with resonances. In this work, the role of the triangle mechanism in the decays and is explored. Here, the singularity appears when B- decays into , K *0 decays into K + through pion emission, and K - K + fuse together forming either the a 0 (980) or f 0 (980) which then decays into π 0 η or π+ π – , respectively. As a result, the K * K + K - loop generates a peak in the invariant mass of π - a 0 or π - f 0 around 1420 MeV. The branching ratios that come from this peak are and , which are well within the measurable range. Thus, this work makes interesting predictions about an effect of a triangle singularity in an experiment that is feasible in present experimental facilities.

yearjournalcountryeditionlanguage
2019-01-01EPJ Web of Conferences
https://doi.org/10.1051/epjconf/201919904005