Study of CP Violation in D→ K(892)0 π + K (892)0π→ KS,L0π0 π Decays
Abstract
Within the Standard Model, we investigate the CP violations and the KS0-KL0 asymmetries in D→ K(892)0 π + K (892)0π→ KS,L0π0 π decays basing on the factorization-assisted topological-amplitude (FAT) approach and the topological amplitude (TA) approach of Cheng and Chiang [Phys. Rev. D 104, 073003 (2021).]. We find that the CP violations in these decays ACPKS,L0 can exceed the order of 10-3 in the two approaches and consist of three parts: the indirect CP violations in K0 -K0 mixing ACP,KS,L0mix, the direct CP violations in charm decays ACP,KS,L0dir and the new CP violation effects ACP,KS,L0int, which are induced from the interference between two tree (Cabibbo-favored and doubly Cabibbo-suppressed) amplitudes with the neutral kaon mixing. The indirect CP violations in K0 -K0 mixing play a dominant role in ACPKS,L0, the new CP violation effects have a non-negligible contribution to ACPKS,L0. We estimate the numerical results of the KS0-KL0 asymmetries RKS-KLD and find that there exist a large difference between the numerical results in the FAT approach and that of the TA approach. We also find that if ones adopt the values of the decay time parameters t0 = 3.0 τS and t1 = 10.0 τS, the new CP violation effect ACP,KS0int would dominate the CP violation in D → K(892)0 π + K (892)0π→ KS0π0 π decays and could be observed with 6.7× 106 and 6.5× 106 D events-times-efficiency in the FAT approach and the TA approach, respectively. Our results could be tested by the LHCb, Belle II and BESIII experiments.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.