Probing new physics with the kaon decays Kππ\!\!\!E

Abstract

The latest search for the rare kaon decay K+π+ by the NA62 experiment has produced evidence for it with a branching fraction consistent with the prediction of the standard model. The new result implies that in this decay, with the pair appearing as missing energy (\!\!E), the room for possible new physics is no longer sizable and that therefore its contributions to underlying four-particle s d\!\!\!E operators with parity-even ds quark bilinears have become significantly constrained. Nevertheless, we point out that appreciable manifestations from beyond the standard model induced by the corresponding operators with mainly parity-odd ds quark bilinears could still occur in Kππ\!\!\!E modes, on which there are only minimal empirical details at present. We find in particular that new physics of this kind may enhance the branching fraction of KLπ0π0\!\!\!E to values reaching its current experimental upper limit and the branching fractions of K+π+π0\!\!\!E and KLπ+π-\!\!\!E to the levels of 10-7 and 10-6, respectively. Thus, quests for these decays in existing kaon facilities such as KOTO and NA62 or future ones could provide valuable information complementary to that gained from Kπ\!\!\!E.