Decay and structure of the Hoyle state

Abstract

The first 0+ resonant state of the 12C nucleus 12C(02+), so called the Hoyle state, is investigated in a three-α-particle (3-α) model. A wave function for the photodisintegration reaction of a 12C bound state to 3-α final states is defined and calculated by the Faddeev three-body formalism, in which three-body bound- and continuum states are treated consistently. From the wave function at the Hoyle state energy, I calculated distributions of outgoing α-particles and density distributions at interior region of the Hoyle state. Results show that a process through a two-α resonant state is dominant in the decay and contributions of the rest process are very small, less than 1 \%. There appear some peaks in the interior density distribution corresponding to configurations of an equilateral- and an isosceles triangles. It turns out that these results are obtained independently of the choice of α-particle interaction models, when they are made to reproduce the Hoyle state energy.