Decays D+(s) π(K)++- and D0 +- in the MSSM with and without R-parity

Abstract

We study the rare decays D+ π++-, D+s K++- and D0 +-(=e,μ) in the minimal supersymmetic standard model with and without R-parity. Using the strong constraints on relevant supersymmetric parameters from D0-D0 mixing and K+ π+ decay, we examine constrained supersymmetry contributions to relevant branching ratios, direct CP violations and ratios of D+(s) π(K)+μ+μ- and D+(s) π(K)+e+e- decay rates. We find that both R-parity conserving LR as well as RL mass insertions and R-parity violating squark exchange couplings have huge effects on the direct CP violations of D+(s) π(K)++-, moreover, the constrained LR and RL mass insertions still have obvious effects on the ratios of D+(s) π(K)+μ+μ- and D+(s) π(K)+e+e- decay rates. The direct CP asymmetries and the ratios of D+(s) π(K)+μ+μ- and D+(s) π(K)+e+e- decay rates are very sensitive to both moduli and phases of relevant supersymmetric parameters. In addition, the differential direct CP asymmetries of D+(s) π(K)++- are studied in detail.