TY - JOUR
T1 - The electronic emission spectrum of ionized nitrous oxide, N<sub>2</sub>O<sub>+</sub> : Ã<sub>2</sub>Σ<sub>+</sub>—X<sub>2</sub>Π
JF - Philosophical Transactions of the Royal Society of London. Series A,
Mathematical and Physical Sciences
JO - Philos Trans R Soc Lond A
SP - 157
LP - 189
M3 - 10.1098/rsta.1974.0048
VL - 277
IS - 1266
AU -
AU -
Y1 - 1974/09/19
UR - http://rsta.royalsocietypublishing.org/content/277/1266/157.abstract
N2 - The emission spectrum of the transition A 22 +- X 2n between the two lowest states of the ion of N2O have been photographed under high resolution and analysed in both of the two isotopes N2ieO+ and N2lsO+. The principal vibrational structure yields the stretching fundamentals in both states (table 11), from which complete sets of quadratic valence stretching force constants are obtained, albeit uncorrected for anharmonicities (table 14). The excited state A2E is more tightly bound than the neutral NaO in its ground state. Sequences in the bending vibration show the effects of moderate Renner-Teller vibronic coupling in the orbitally degenerate 2II-state (e = — 0.19); and together with a few weaker bands of different polarization involving Av2 = ± 1 observed presumably through Herzberg—Teller vibronic coupling, these transitions make possible a complete analysis of the Renner coupling in v = 1 (table 10) and hence yield the bending frequencies and force constants. This analysis provides one of the best tests so far of the Renner-Pople-Hougen theory of these couplings. Rotational analysis gives zero-point moments of inertia I0 from which r0-structures are calculated for both states (table 13). Finally, the force constants and bond distances of the ion are compared with those of the neutral molecule, and the states of the ion correlated with those of possible dissociation products (table 16).
ER -