Investigation of α clustering with knockout reactions

Abstract

Our goal is to reveal how the α cluster amplitude is probed through α knockout reactions depending on reaction conditions, e.g., the incident energy. We consider 20Ne(p,pα)16O and 120Sn(p,pα)116Cd at 100-400 MeV within the distorted wave impulse approximation (DWIA) framework. We introduce a masking function which shows how the reaction amplitude in the nuclear interior is suppressed and defines the probed region of the α cluster wave function. It is clearly shown by means of the masking function that the α knockout reaction probes the α cluster amplitude in the nuclear surface region, which is the direct measure of well-developed α cluster states. A simplified form of the masking function is introduced and the incident energy dependence of the masking effect is investigated. α knockout reaction can probe the α cluster amplitude in the nuclear surface region by choosing proper kinematics owing to the masking effect originated from absorptions of distorting potentials, and is a suitable method to investigate how α cluster states are spatially developed.