Highly accurate calculations of the rotationally excited bound states in three-body systems

Abstract

An effective optimization strategy has been developed to construct highly accurate bound state wave functions in various three-body systems. Our procedure appears to be very effective for computations of weakly bound states and various excited states, including rotationally excited states, i.e. states with L 1. The efficiency of our procedure is illustrated by computations of the excited P*(L = 1)-states in the ddμ, dtμ and ttμ muonic molecular ions, P(L = 1)-states in the non-symmetric pdμ, ptμ and dtμ ions and 21P(L = 1)- and 23P(L = 1)-states in He atom(s).