A Regge pole analysis is employed to explain the oscillatory patterns observed in numerical simulations of integral cross section for the F+H2?v=0, j=0?->HF?v?=2, j?=0?+H reaction in the translational collision energy range 25-50 meV. In this range the integral cross section for the transition, affected by two overlapping resonances, shows nearly sinusoidal oscillations below 38 meV and a more structured oscillatory pattern at larger energies. The two types of oscillations are related to the two Regge trajectories which ?pseudo? cross near the energy where the resonances are aligned. Simple estimates are given for the periods of the oscillations.
Overlapping resonances and Regge oscillations in the state-to-state integral cross sections of the F+H2 reaction.
D De Fazio;
2007
Abstract
A Regge pole analysis is employed to explain the oscillatory patterns observed in numerical simulations of integral cross section for the F+H2?v=0, j=0?->HF?v?=2, j?=0?+H reaction in the translational collision energy range 25-50 meV. In this range the integral cross section for the transition, affected by two overlapping resonances, shows nearly sinusoidal oscillations below 38 meV and a more structured oscillatory pattern at larger energies. The two types of oscillations are related to the two Regge trajectories which ?pseudo? cross near the energy where the resonances are aligned. Simple estimates are given for the periods of the oscillations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
