Add to ORKGInternational audienceThe isotopically substituted nitrous oxide species 14N14NO, 15N14NO, 14N15NO and 15N15NO were investigated by ultra-violet (UV) absorption spectroscopy. High precision cross sections were obtained for the wavelength range 181 to 218 nm at temperatures of 233 and 283 K. These data are used to calculate photolytic isotopic fractionation constants as a function of wavelength. The fractionation constants were used in a three-dimensional chemical transport model in order to simulate the actual fractionation of N2O in the stratosphere, and the results were found to be in good agreement with field studies
Isotopic fractionation of mono-substituted N2O species by the stratospheric sinks, photolysis and re...
The position dependent N-15 fractionation of nitrous oxide (N2O), which cannot be obtained from mass...
Nitrous oxide (N2O) extracted from stratospheric whole air samples has been analyzed for its 15N and...
International audienceThe isotopically substituted nitrous oxide species 14N14NO, 15N14NO, 14N15NO a...
The isotopically substituted nitrous oxide species 14N14NO, 15N14NO, 14N15NO and 15N15NO were invest...
The isotopically substituted nitrous oxide species (NNO)-N-14-N-14, (NNO)-N-15-N-14, (NNO)-N-14-N-15...
There is strong interest in using isotopic analysis to better constrain the budget of atmospheric ni...
In previous reports on isotopic fractionation in the ultraviolet photolysis of nitrous oxide (N2O) o...
We propose an isotopic fractionation mechanism, based on photolytic destruction, to explain the ^(15...
In previous reports on isotopic fractionation in the ultraviolet photolysis of nitrous oxide (N2O) o...
Motivated by Yung and Miller's [1997] suggestion that N2O is isotopically fractionated during UV pho...
Stratospheric ultraviolet (UV) photolysis is the dominant sink reaction and main origin of isotopic ...
Stratospheric ultraviolet (UV) photolysis is the dominant sink reaction and main origin of isotopic ...
[1] We investigate the mass dependent isotopic fractionation mechanisms, based on photolytic destruc...
For the first time, accurate first principles potential energy surfaces allow N2O cross sections and...
Isotopic fractionation of mono-substituted N2O species by the stratospheric sinks, photolysis and re...
The position dependent N-15 fractionation of nitrous oxide (N2O), which cannot be obtained from mass...
Nitrous oxide (N2O) extracted from stratospheric whole air samples has been analyzed for its 15N and...
International audienceThe isotopically substituted nitrous oxide species 14N14NO, 15N14NO, 14N15NO a...
The isotopically substituted nitrous oxide species 14N14NO, 15N14NO, 14N15NO and 15N15NO were invest...
The isotopically substituted nitrous oxide species (NNO)-N-14-N-14, (NNO)-N-15-N-14, (NNO)-N-14-N-15...
There is strong interest in using isotopic analysis to better constrain the budget of atmospheric ni...
In previous reports on isotopic fractionation in the ultraviolet photolysis of nitrous oxide (N2O) o...
We propose an isotopic fractionation mechanism, based on photolytic destruction, to explain the ^(15...
In previous reports on isotopic fractionation in the ultraviolet photolysis of nitrous oxide (N2O) o...
Motivated by Yung and Miller's [1997] suggestion that N2O is isotopically fractionated during UV pho...
Stratospheric ultraviolet (UV) photolysis is the dominant sink reaction and main origin of isotopic ...
Stratospheric ultraviolet (UV) photolysis is the dominant sink reaction and main origin of isotopic ...
[1] We investigate the mass dependent isotopic fractionation mechanisms, based on photolytic destruc...
For the first time, accurate first principles potential energy surfaces allow N2O cross sections and...
Isotopic fractionation of mono-substituted N2O species by the stratospheric sinks, photolysis and re...
The position dependent N-15 fractionation of nitrous oxide (N2O), which cannot be obtained from mass...
Nitrous oxide (N2O) extracted from stratospheric whole air samples has been analyzed for its 15N and...