Abstract
We systematically analyze the full angular distribution in $D \to P_1 P_2 l^+ l^-$ decays, where $P_{1,2}=\pi,K$, $l=e,\mu$. We identify several null tests of the standard model (SM). Notably, the angular coefficients $I_{5,6,7}$, driven by the leptons' axial-vector coupling $C_{10}^{(\prime)}$, vanish by means of a superior GIM-cancellation and are protected by parity invariance below the weak scale. CP-odd observables related to the angular coefficients $I_{5,6,8,9}$ allow to measure CP-asymmetries without $D$-tagging. The corresponding observables $A_{5,6,8,9}$ constitute null tests of the SM. Lepton universality in $|\Delta c| =|\Delta u|=1$ transitions can be tested by comparing $D \to P_1 P_2 \mu^+ \mu^-$ to $D \to P_1 P_2 e^+ e^-$ decays. Data for $P_1 P_2=\pi^+ \pi^-$ and $K^+ K^-$ on muon modes are available from LHCb and on electron modes from BESIII. Corresponding ratios of dimuon to dielectron branching fractions are at least about an order of magnitude away from probing the SM. In the future electron and muon measurements should be made available for the same cuts as corresponding ratios $R_{P_1 P_2}^D$ provide null tests of $e$-$\mu$-universality. We work out beyond-SM signals model-independently and in SM extensions with leptoquarks.
Highlights
Rare charm decays are notoriously challenging theoretically, yet offer singular insights into flavor in the up-quark sector [1]
We identify several null tests of the standard model (SM)
Previous theory works on the four-body decays D → P1P2lþl−, P1;2 1⁄4 π, K highlight T-odd asymmetries [11,12] or the leptonic forward-backward asymmetry [12], a systematic analysis of the virtues of the full angular distribution at par with the corresponding one in B
Summary
Rare charm decays are notoriously challenging theoretically, yet offer singular insights into flavor in the up-quark sector [1]. In view of the substantial hadronic uncertainties there are three main avenues to probe for beyond the standard model (BSM) physics in charm: (i) a measurement in an obvious excess of the SM such as the D → πμþμ− branching ratio at high dilepton mass [5]—a window that can be closing soon [6], (ii) extract the SM contribution from a SM-dominated mode and use SUð3ÞF, e.g., recently demonstrated for D → Vγ, V 1⁄4 ρ, K Ã, φ and DðsÞ → Kππγ decays in [7] or (iii) perform null tests of (approximate) symmetries of the SM The latter includes searches for lepton-flavor violation (LFV), CP violation, or lepton nonuniversality (LNU).
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