Search for three alpha states around an 16O core in 28Si

Abstract

We investigate the existence of weakly coupled gas-like states comprised of three α particles around an 16O core in 28Si. We calculate the excited states in 28Si using the multi-configuration mixing method based on the 16O + 3α cluster model. We also include the 16O + 12C and 24Mg + α basis wave functions prepared by the generator coordinate method. To identify the gas-like states, we calculate the isoscalar monopole transition strengths and the overlap of the obtained states with the geometrical cluster wave function and the Tohsaki-Horiuchi-Schuck-R\"opke (THSR) wave function. The results show that the obtained fourth and twelfth states significantly overlap with the THSR wave function. These two states clearly coexist with the 16O + 12C cluster states, emerging at similar energies. The calculated isoscalar monopole strengths between those two states are significantly large, indicating that the states are members of the excitation mode. Furthermore, the calculated root-mean-squared (RMS) radii for these states also suggest that a layer of gas-like three α particles could exist around the surface of the 16O core, which can be described as a "two-dimensional gas" in the intermediate state before the Hoyle-like three α states emerge.