Spectroscopic Constants, Lifetimes and Predissociation Rates for Bi2 A(0+u)

Abstract

This research determined spectroscopic constants, lifetimes and predissociation rates for the A-state of Bi2. More than 100,000 spectral features from a Bi2 X to A absorption spectrum, encompassing 0 < v' < 92, 0 < v" < 7, and J < 204, have been assigned. Vibrational and rotational spectroscopic constants for Bi2(A) were improved. These constants redefine the A-state potential using RKR methods and set the A-state dissociation energy at 29913 1/cm correlating A-state dissociation products to quartet S + doublet D atoms. A pulsed dye laser apparatus was used to obtain lifetime data for Bi2 A to X transitions. The collision-free lifetimes for v' = 20 to v' = 39, and J < 105, were investigated for effects of heterogeneous predissociation. observed predissociation rates, kpd J(J+1), establish the range kpd = 153 to 1.5 E+05 1/sec for v' = 21 to v' = 39. Rapid predissociation and the dense Bi2 (A-X) spectrum required both traditional lifetime measurements and synthetic spectrum fits to determine the full range of observed rates. Numerical analysis fails to produce a repulsive potential responsible for predissociation implying that current theoretical knowledge of predissociation is inadequate to describe the results of this study.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 2001

Accession Number

ADA390968

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