THE FORMATION AND REACTIONS OF METASTABLE OXYGEN (1Σ+g) MOLECULES

molecules from a discharge have been analyzed by the emission of the infrared atmospheric (0.0) bancfat 12700 A and by the emission of the atmospheric (0,O) band at 7619 A due to the energy pooling reaction ## 202(1Agj -+02('Cs) + 02(%;) . Particular rate constants for the deactivation of 02(1 A

Singlet molecular oxygen, 02('Z,i), is one of the irqportant intermediate species in the atmospheres of Earth, Mars, and Venus. To elucidate the chemistry of this excited molecular oxygen, a series of kinetic measurements have been undertaken using the flow-dischargeioptical-emission technique. By m

We investigated the resonant magneto-optic spectra of the electronic band b 1 S / g -X 3 S 0 g of the oxygen molecule. The theoretical analysis was made on the basis of the Zeeman effect of the magnetic-dipole transition. The oxygen molecules were assumed to be subjected to an externally applied mag

The quenching re.ac!ions 01 memsmble niwogcn molecuks I$(A%. u = 0. I. 2) by 02 has been sludisd in a rrmperamrscontrolled flowing afterglow experimenl. The rexlion tale constants at 300 K are 2.5 X IO-"\_ 4.0X IO-" and 4.5 X lo-" c&/s molecule for u = 0. 1 and 2, respectively. They vary as Z"' m th