Numerical analysis of highly efficient laser-based method of radioactive Cs isotope separation utilizing light-induced drift in D₁ and D₂ transitions in rare gases

“…To develop the calcium-48 48 Ca enrichment process, a feasibility study on a band chromatography was made using 9 M HCl solution and crown ether resin synthesized in porous silica beads [10]. As another method for isotope separation, the feasibility of separating radioactive Cs isotopes using the effects of light-induced drift (LID), which is the massive flow of particles caused by the difference between the collision frequencies of the buffer particles in the optically connected ground and excited states were investigated [11].…”

Recent activities in the field of separation science and technology of radioactive elements

“…To develop the calcium-48 48 Ca enrichment process, a feasibility study on a band chromatography was made using 9 M HCl solution and crown ether resin synthesized in porous silica beads [10]. As another method for isotope separation, the feasibility of separating radioactive Cs isotopes using the effects of light-induced drift (LID), which is the massive flow of particles caused by the difference between the collision frequencies of the buffer particles in the optically connected ground and excited states were investigated [11].…”

Recent activities in the field of separation science and technology of radioactive elements

Review of the Latest Achievements on Atomic Vapor Laser Isotope Separation

Ab initiointeratomic potentials and transport properties of alkali metal (M = Rb and Cs)–rare gas (Rg = He, Ne, Ar, Kr, and Xe) media