Add to ORKGThe hydroxyl airglow (6-2) band has been monitored above Davis station, Antarctica (68.6°S, 78.0°E)...
A-priori, rapid variations of solar activity that directly impact on the terrestrial environment sho...
In January and February 2016, the OH airglow camera system FAIM (Fast Airglow Imager) measured durin...
OH rotational temperatures have been observed at the Syowa Station, Antarctica (69° S, 39° ...
The hydroxyl (OH) rotational temperature and band emission rate have been derived using year-round, ...
Hydroxyl (OH) brightness temperatures from the mesopause region derived from temperature profiles f...
Airglow emission observations by the wind imaging interferometer (WINDII) on the Upper Atmosphere Re...
The Tenth Symposium on Polar Science/Special session: [IW] Whole atmosphere, Wed. 4 Dec. / Entrance ...
This work investigates the mesospheric OH* airglow layer. Ground-based observations of its Meinel em...
We analyze 15 years of atomic oxygen (OI) 558 nm and hydroxyl (OH) (8-3) 730 nm nightglow emission i...
Analyses of OH zonal means, recorded at boreal high latitudes by the Aura Microwave Limb Sounder (ML...
Abstract. Energetic particle precipitation (EPP) has the potential to change the neutral atmospheric...
Measurements of hydroxyl (OH*) airglow intensity are a straightforward and cost-efficient method whi...
Energetic Particle Precipitation (EPP) is known to have an impact on the chemical and thermal proper...
Two identical instruments in a parallel setup were used to observe the mesospheric OH airglow for mo...
The hydroxyl airglow (6-2) band has been monitored above Davis station, Antarctica (68.6°S, 78.0°E)...
A-priori, rapid variations of solar activity that directly impact on the terrestrial environment sho...
In January and February 2016, the OH airglow camera system FAIM (Fast Airglow Imager) measured durin...
OH rotational temperatures have been observed at the Syowa Station, Antarctica (69° S, 39° ...
The hydroxyl (OH) rotational temperature and band emission rate have been derived using year-round, ...
Hydroxyl (OH) brightness temperatures from the mesopause region derived from temperature profiles f...
Airglow emission observations by the wind imaging interferometer (WINDII) on the Upper Atmosphere Re...
The Tenth Symposium on Polar Science/Special session: [IW] Whole atmosphere, Wed. 4 Dec. / Entrance ...
This work investigates the mesospheric OH* airglow layer. Ground-based observations of its Meinel em...
We analyze 15 years of atomic oxygen (OI) 558 nm and hydroxyl (OH) (8-3) 730 nm nightglow emission i...
Analyses of OH zonal means, recorded at boreal high latitudes by the Aura Microwave Limb Sounder (ML...
Abstract. Energetic particle precipitation (EPP) has the potential to change the neutral atmospheric...
Measurements of hydroxyl (OH*) airglow intensity are a straightforward and cost-efficient method whi...
Energetic Particle Precipitation (EPP) is known to have an impact on the chemical and thermal proper...
Two identical instruments in a parallel setup were used to observe the mesospheric OH airglow for mo...
The hydroxyl airglow (6-2) band has been monitored above Davis station, Antarctica (68.6°S, 78.0°E)...
A-priori, rapid variations of solar activity that directly impact on the terrestrial environment sho...
In January and February 2016, the OH airglow camera system FAIM (Fast Airglow Imager) measured durin...