Lifetime of the B3Π state of ZrO

Lifetime measurements of individual rotational levels in excited states of hafnium oxide and hafnium sulfide have been performed using population probing by resonant two-photon ionization in a molecular beam. For the b 3 1 state of HfO rotational levels in the vibrational level v = 0 were found to h

A laser ablation source combined with a time-of-flight mass spectrometer has been constructed. The static electric field in the mass spectrometer gives rise to a first-order Stark effect splitting from which the permanent electric dipole moment of the B 1 ⌸ state (v ϭ 0) of 90 ZrO is determined and

Using the single-photon time correlation sxtetf'od, we have determined the lifetime of the Sz (B 3X3) state from the decay rate of the fluorescence at 370 nm. A lifetime of 45.0 t 0.6 n5 was measured, and the cross section for fluorescence quenching by Sz as found to be 8J -3 t 4.7 A\*. A slight dep

Model potential calculations of the B r Du-X r xz transition dipole moment are used in conjunction with the empirica potential energy curves of Vidal and Hessel to calc&te the radiative lifetimes of the vibrational levels of the B r Du state. The lifetimes are nearly independent of the vibrational q

Lifetime measurements of the A 4 P, B 4 P, and C 4 S 0 electronic states of the vanadium monoxide molecule were performed using population probing of resonant two-photon ionization in a molecular beam. These lifetimes were found to be 6 { 1 msec, 0.37 { 0.05 msec, and 73 { 2 nsec, respectively, for