Add to ORKGGround-based measurements of upper atmospheric parameters, such as temperature and wind velocity, can be made by observing airglow emissions that have a well-defined altitude profile and that are known to be representative of the emitting region. We describe the optical observatory at Maynooth (53.23° N, 6.4° W) at which two instruments, a Fabry-Pérot interferometer and a Fourier transform spectrometer, are used to record atmospheric airglow emissions in Ireland at visible and near-infrared wavelengths, respectively. Descriptions of the instruments, data acquisition, and analysis procedures are provided, together with some sample results
A valuable by-product of the OAO-2 astronomy mission has been the first extensive set of measurement...
The Bonn University operates a Rayleigh/Mie/Raman backscatter lidar at the Esrange near the Swedish...
We are developing an all-sky and a scanning Fabry-Perot interferometer for studying the dynamics of ...
Ground-based measurements of upper atmospheric parameters, such as temperature and wind velocity, ca...
Spectra of the Meinel hydroxyl emissions in the wavelength range LO-l.6 um, which originate at altit...
A groundbased instrument to measure the Atmospheric airglow of the molecular oxygen infrared atmosph...
Spectra of the O2(a1 Δg) airglow emission band at 1.27 μm have been recorded during twilight at May...
Measurements of hydroxyl (OH*) airglow intensity are a straightforward and cost-efficient method whi...
Spectra of the O2(a1Δg) airglow emission band at 1.27 µm have been recorded during twilight a...
Spectra of the hydroxyl emissions in the wavelength range 1.0-1.6 #m, which originate at mesopause a...
In January and February 2016, the OH airglow camera system FAIM (Fast Airglow Imager) measured durin...
We consider 5 years of spectrometer measurements of OH(6–2) and O2(0–1) airglow emission intensities...
Internal waves and atmospheric tides, which propagate into the upper mesosphere and lower thermosphe...
The physics of the hydroxyl (OH) layer located in the Mesosphere and Lower Thermosphere (MLT) has be...
A valuable by-product of the OAO-2 astronomy mission has been the first extensive set of measurement...
The Bonn University operates a Rayleigh/Mie/Raman backscatter lidar at the Esrange near the Swedish...
We are developing an all-sky and a scanning Fabry-Perot interferometer for studying the dynamics of ...
Ground-based measurements of upper atmospheric parameters, such as temperature and wind velocity, ca...
Spectra of the Meinel hydroxyl emissions in the wavelength range LO-l.6 um, which originate at altit...
A groundbased instrument to measure the Atmospheric airglow of the molecular oxygen infrared atmosph...
Spectra of the O2(a1 Δg) airglow emission band at 1.27 μm have been recorded during twilight at May...
Measurements of hydroxyl (OH*) airglow intensity are a straightforward and cost-efficient method whi...
Spectra of the O2(a1Δg) airglow emission band at 1.27 µm have been recorded during twilight a...
Spectra of the hydroxyl emissions in the wavelength range 1.0-1.6 #m, which originate at mesopause a...
In January and February 2016, the OH airglow camera system FAIM (Fast Airglow Imager) measured durin...
We consider 5 years of spectrometer measurements of OH(6–2) and O2(0–1) airglow emission intensities...
Internal waves and atmospheric tides, which propagate into the upper mesosphere and lower thermosphe...
The physics of the hydroxyl (OH) layer located in the Mesosphere and Lower Thermosphere (MLT) has be...
A valuable by-product of the OAO-2 astronomy mission has been the first extensive set of measurement...
The Bonn University operates a Rayleigh/Mie/Raman backscatter lidar at the Esrange near the Swedish...
We are developing an all-sky and a scanning Fabry-Perot interferometer for studying the dynamics of ...