Alpha Decay in the Complex Energy Shell Model

Abstract: Background: Alpha emission from a nucleus is a fundamental decay process in which the alpha particle formed inside the nucleus tunnels out through the potential barrier.Purpose: We describe alpha decay of 212 Po and 104 Te by means of the configuration interaction approach.Method: To compute the preformation factor and penetrability, we use the complex-energy shell model with a separable T =1 interaction. The single-particle space is expanded in a Woods-Saxon basis that consists of bound and unbound resonant s… Show more

“…( 13), the root-mean square (RMS) charge radius of the α particle is found to be [26] r ch = r 2 p + 0.76 − 0.11(N/Z) = 1.67 fm. (15) On the right-hand side of Eq. ( 15), the first term r 2 p = dr r 2 ρ α (r)/ drρ α (r) is the point radius of the α particle, the second term 0.76 fm 2 corresponds to the charge radius squared of the proton, and the third term −0.11 fm 2 corresponds to the charge radius squared of the neutron.…”

“…Other theoretical analyses could be found in, e.g., Ref. [14][15][16]. Recently, a new α-decay chain 108 Xe → 104 Te → 100 Sn is observed experimentally by K. Auranen [17].…”

$\alpha$α clustering slightly above 100Sn in the light of the new experimental data on the superallowed $\alpha$α decay

“…( 13), the root-mean square (RMS) charge radius of the α particle is found to be [26] r ch = r 2 p + 0.76 − 0.11(N/Z) = 1.67 fm. (15) On the right-hand side of Eq. ( 15), the first term r 2 p = dr r 2 ρ α (r)/ drρ α (r) is the point radius of the α particle, the second term 0.76 fm 2 corresponds to the charge radius squared of the proton, and the third term −0.11 fm 2 corresponds to the charge radius squared of the neutron.…”

“…Other theoretical analyses could be found in, e.g., Ref. [14][15][16]. Recently, a new α-decay chain 108 Xe → 104 Te → 100 Sn is observed experimentally by K. Auranen [17].…”

$\alpha$α clustering slightly above 100Sn in the light of the new experimental data on the superallowed $\alpha$α decay