Revisiting the hypertriton lifetime puzzle

Abstract

Conflicting values of the hypertriton (3H) lifetime were extracted in recent relativistic heavy-ion collision experiments. The ALICE Collaboration's reported 3H lifetime τ(3H) is compatible within measurement uncertainties with the free lifetime τ, as naively expected for a loosely bound hyperon in 3H, whereas STAR's reported range of τ(3H) values is considerably shorter: τ STAR(3H)(0.4-0.7)τ. This 3H lifetime puzzle is revisited theoretically using 3H three-body wavefunctions generated in a chiral effective field theory approach to calculate the decay rate (3H\, 3He\,+π-). Significant but opposing contributions arise from NN admixtures in 3H and from π--3He final-state interaction. Evaluating the inclusive π- decay rate π-(3H) via a branching ratio (3H\, 3He+π-)/π-(3H) determined in helium bubble-chamber experiments, and adding π0(3H) through the I=12 rule, we derive τ(3H) assuming several different values of the separation energy B(3H). It is concluded that each of ALICE and STAR reported τ(3H) intervals implies its own constraint on B(3H): B 0.1 MeV for ALICE, B 0.2 MeV for STAR.