Mechanism of the 6Li(6Li, 2α)α reaction from 36 to 46 MeV

“…Such direct contributions have been mainly interpreted as due to quasi-free (QF) processes, in which an a-cluster, either in the target or in the projectile, is spectator of the 6Li(d, e)4He virtual reaction. The competition between sequential decay and quasi-free processes was also observed at energies around 40 MeV [10].…”

Energy dependence of direct effects in the6Li +6Li → 3α reaction around the Coulomb Barrier

“…Such direct contributions have been mainly interpreted as due to quasi-free (QF) processes, in which an a-cluster, either in the target or in the projectile, is spectator of the 6Li(d, e)4He virtual reaction. The competition between sequential decay and quasi-free processes was also observed at energies around 40 MeV [10].…”

Energy dependence of direct effects in the6Li +6Li → 3α reaction around the Coulomb Barrier

“…In previous years, the 6 Li + 6 Li → 3α reaction around the Coulomb barrier was experimentally investigated by several authors [1][2][3][4][5][6][7][8][9][10][11][12][13][14], in several cases for astrophysical studies via the Trojan Horse method [15][16][17][18][19][20][21][22]. Both sequential decay (SD) through 8 Be excited states and direct processes were seen to contribute to the reaction cross section.…”

Quasifree mechanism in theLi6+Li6→3αreaction at low energy

Multibody final states of the 6Li + 6Li reaction AT 97 MeV