Add to ORKGInternational audienceAmong the major factors controlling ozone loss in the polar winter is the kinetics of the ClO dimer catalytic cycle. The most important issues are the thermal equilibrium between ClO and Cl2O2, the rate of Cl2O2 formation, and the Cl2O2 photolysis rate. All these issues have been addressed in a large number of laboratory, field and theoretical studies, but large discrepancies between individual results exist and a self-consistent set of parameters compatible with field observations of ClO and Cl2O2 has not been identified. Here, we use thermodynamic calculations and unimolecular rate theory to constrain the ClO/Cl2O2 equilibrium constant and the rate constants for Cl2O2 formation and dissociation. This information is u...
The kinetics of the potentially atmospherically important ClO + CH3O2 reaction (1) have been studied...
In-situ measurements of ClO and its dimer carried out during the SOLVE II/VINTERSOL-EUPLEX and ENVIS...
The absorption cross sections of the ClO dimer, ClOOCl, are important to the photochemistry of ozone...
International audienceAmong the major factors controlling ozone loss in the polar vortices in winter...
Among the major factors controlling ozone loss in the polar vortices in winter/spring is the kinetic...
We analyze measurements of ClO across the terminator taken by the Airborne Submillimeter Radiometer ...
The rate coefficient for the atmospherically important radical reaction: ClO + HO2 → Productswhich l...
The recent observations of elevated concentrations of the ClO radical in the austral spring over Ant...
Active chlorine species play a dominant role in the catalytic destruction of stratospheric ozone in ...
The photolysis rate constant of dichlorine peroxide (ClOOCl, ClO dimer) J(ClOOCl) is a critical para...
The photolysis rate constant of dichlorine peroxide (ClOOCl, ClO dimer), J$_{ClOOCl}$, is a critical...
Key kinetic parameters governing the partitioning of chlorine species in the Antarctic polar stratos...
The reactions, BrO + ClO yields Br + ClOO (1a) yields Br + OClO (1b) yields BrCl + O2 (1c) and ClO +...
Ozone loss in the polar regions is driven by halogen catalytic loss cycles. Central to the large ozo...
International audienceIn-situ measurements of ClO and its dimer carried out during the SOLVE II/VINT...
The kinetics of the potentially atmospherically important ClO + CH3O2 reaction (1) have been studied...
In-situ measurements of ClO and its dimer carried out during the SOLVE II/VINTERSOL-EUPLEX and ENVIS...
The absorption cross sections of the ClO dimer, ClOOCl, are important to the photochemistry of ozone...
International audienceAmong the major factors controlling ozone loss in the polar vortices in winter...
Among the major factors controlling ozone loss in the polar vortices in winter/spring is the kinetic...
We analyze measurements of ClO across the terminator taken by the Airborne Submillimeter Radiometer ...
The rate coefficient for the atmospherically important radical reaction: ClO + HO2 → Productswhich l...
The recent observations of elevated concentrations of the ClO radical in the austral spring over Ant...
Active chlorine species play a dominant role in the catalytic destruction of stratospheric ozone in ...
The photolysis rate constant of dichlorine peroxide (ClOOCl, ClO dimer) J(ClOOCl) is a critical para...
The photolysis rate constant of dichlorine peroxide (ClOOCl, ClO dimer), J$_{ClOOCl}$, is a critical...
Key kinetic parameters governing the partitioning of chlorine species in the Antarctic polar stratos...
The reactions, BrO + ClO yields Br + ClOO (1a) yields Br + OClO (1b) yields BrCl + O2 (1c) and ClO +...
Ozone loss in the polar regions is driven by halogen catalytic loss cycles. Central to the large ozo...
International audienceIn-situ measurements of ClO and its dimer carried out during the SOLVE II/VINT...
The kinetics of the potentially atmospherically important ClO + CH3O2 reaction (1) have been studied...
In-situ measurements of ClO and its dimer carried out during the SOLVE II/VINTERSOL-EUPLEX and ENVIS...
The absorption cross sections of the ClO dimer, ClOOCl, are important to the photochemistry of ozone...