Dissociation of iodine molecules and singlet oxygen generation in O₂–I₂ mixture induced by 1315-nm laser radiation

“…Gas phase processes involving oxygen molecules in the electronically excited state b 1 Σ g + have been studied extensively due to their importance in the terrestrial atmosphere, − oxygen-containing gas discharges, − the active medium of an oxygen–iodine laser, , and combustion. − Currently, a nonequilibrium plasma discharge has been actively studied − in view of its potential applications to ignition and flame stabilization. An important point is that plasma–chemical processes result in the formation of highly reactive atoms, radicals, and excited molecules including O 2 . ,,, In particular, plasma–chemical processes in air–fuel mixtures result in the formation of O 2 (b 1 Σ g + ) molecules that may activate chain reactions in the combustion zone .…”

“…Gas phase processes involving oxygen molecules in the electronically excited state b 1 Σ g + have been studied extensively due to their importance in the terrestrial atmosphere, 1−3 oxygencontaining gas discharges, 4−6 the active medium of an oxygen− iodine laser, 7,8 and combustion. 9−12 Currently, a nonequilibrium plasma discharge has been actively studied 13−18 in view of its potential applications to ignition and flame stabilization.…”

O₂(b¹Σ_g⁺) Removal by H₂, CO, N₂O, CH₄, and C₂H₄ in the 300–800 K Temperature Range

“…Gas phase processes involving oxygen molecules in the electronically excited state b 1 Σ g + have been studied extensively due to their importance in the terrestrial atmosphere, − oxygen-containing gas discharges, − the active medium of an oxygen–iodine laser, , and combustion. − Currently, a nonequilibrium plasma discharge has been actively studied − in view of its potential applications to ignition and flame stabilization. An important point is that plasma–chemical processes result in the formation of highly reactive atoms, radicals, and excited molecules including O 2 . ,,, In particular, plasma–chemical processes in air–fuel mixtures result in the formation of O 2 (b 1 Σ g + ) molecules that may activate chain reactions in the combustion zone .…”

“…Gas phase processes involving oxygen molecules in the electronically excited state b 1 Σ g + have been studied extensively due to their importance in the terrestrial atmosphere, 1−3 oxygencontaining gas discharges, 4−6 the active medium of an oxygen− iodine laser, 7,8 and combustion. 9−12 Currently, a nonequilibrium plasma discharge has been actively studied 13−18 in view of its potential applications to ignition and flame stabilization.…”

O₂(b¹Σ_g⁺) Removal by H₂, CO, N₂O, CH₄, and C₂H₄ in the 300–800 K Temperature Range