Decoding the Amplitude Pair with Distinct CPV Phases in Charmed Baryon Decays

Abstract

In this Letter, we propose a strategy to extract information on the hierarchical amplitude pair in singly Cabibbo-suppressed (SCS) charmed baryon two-body decays, with a dominant amplitude proportional to λs = Vcs* Vus from tree operators and sub-leading one proportional to λb = Vcb* Vub from both penguin and tree contributions. The coexistence of these two amplitudes is essential for generating nonzero CP violation (CPV) effects. Since the λb amplitude is strongly suppressed, its experimental determination is highly challenging. However, by exploiting SU(3) flavor symmetry, which relates the well-measured Cabibbo-favored (CF) amplitudes to the SCS tree amplitudes, information on the λb amplitude can be extracted. Using current experimental data, a conservative analysis yields λb amplitudes can be as large as about 10\% of the corresponding tree amplitudes with a significance of 2.1σ. In addition, the Lee-Yang parameters of these decays provide an independent probe of this elusive term. We further identify two golden decay channels, c0 p K- and c0 + π-, which are particularly well suited for experimental studies of CPV.