Add to ORKGBecause measurements of bromine at high latitudes are scarce, the current understanding of bromine chemistry is largely based on model calculations. In order to help quantify the amount of bromine in the atmosphere, we measured BrO columns with two ground-based UV-visible spectrometers at the Polar Environment Atmospheric Research Laboratory (PEARL) in Eureka, Nunavut, Canada (80oN, 86oW) in spring 2008. One of these instruments, the UT-GBS (University of Toronto Ground-Based Spectrometer), has been deployed at Eureka during polar sunrise since 1999. The other instrument, the PEARL-GBS (PEARL Ground-Based Spectrometer), was installed permanently in Eureka in August 2006 for year-round operation.The small signal and large diurnal variation o...
The return of sunlight in the polar spring leads to the production of reactive halogen species from ...
The return of sunlight in the polar spring leads to the production of reactive halogen species from ...
The return of sunlight in the polar spring leads to the production of reactive halogen species from ...
-During polar spring, halogen radicals like bromine monoxide (BrO) play an important role in the che...
Inorganic bromine species form the second most important halogen family affecting stratospheric ozon...
The motivation for this thesis was to study chemical and dynamical processes in the Arctic stratosph...
The motivation for this thesis was to study chemical and dynamical processes in the Arctic stratosph...
The motivation for this thesis was to study chemical and dynamical processes in the Arctic stratosph...
[1] A balloon-borne UV–visible spectrometer, the SAOZ-BrO, has been designed for the measurement of ...
The motivation for this thesis was to study chemical and dynamical processes in the Arctic stratosph...
This thesis utilizes UV-visible spectroscopy to develop new datasets, study Arctic and urban atmosph...
Emission of bromine from sea-salt aerosol, frost flowers, ice leads, and snow results in the nearly ...
Bromine-containing substances can decompose the ozone layer. Although the abundance of stratospheric...
Emission of bromine from sea-salt aerosol, frost flowers, ice leads, and snow results in the nearly ...
Abstract: For decades, reactive halogen species (RHSs) have been the subject of detailed scientific ...
The return of sunlight in the polar spring leads to the production of reactive halogen species from ...
The return of sunlight in the polar spring leads to the production of reactive halogen species from ...
The return of sunlight in the polar spring leads to the production of reactive halogen species from ...
-During polar spring, halogen radicals like bromine monoxide (BrO) play an important role in the che...
Inorganic bromine species form the second most important halogen family affecting stratospheric ozon...
The motivation for this thesis was to study chemical and dynamical processes in the Arctic stratosph...
The motivation for this thesis was to study chemical and dynamical processes in the Arctic stratosph...
The motivation for this thesis was to study chemical and dynamical processes in the Arctic stratosph...
[1] A balloon-borne UV–visible spectrometer, the SAOZ-BrO, has been designed for the measurement of ...
The motivation for this thesis was to study chemical and dynamical processes in the Arctic stratosph...
This thesis utilizes UV-visible spectroscopy to develop new datasets, study Arctic and urban atmosph...
Emission of bromine from sea-salt aerosol, frost flowers, ice leads, and snow results in the nearly ...
Bromine-containing substances can decompose the ozone layer. Although the abundance of stratospheric...
Emission of bromine from sea-salt aerosol, frost flowers, ice leads, and snow results in the nearly ...
Abstract: For decades, reactive halogen species (RHSs) have been the subject of detailed scientific ...
The return of sunlight in the polar spring leads to the production of reactive halogen species from ...
The return of sunlight in the polar spring leads to the production of reactive halogen species from ...
The return of sunlight in the polar spring leads to the production of reactive halogen species from ...