Publications
2021, McKenzie, R., LIley, B., Yet another benefit from sunlight in the fight against COVID-19?, British Journal of Dermatology, 185 (2), 246–247, https://doi.org/10.1111/bjd.20516
Tags: Spectral UV
2007, Cordero, R.R., Seckmeyer G., Labbe F., Evaluating the uncertainties of data rendered by computional models, Metrologia, 44, L23-L30
Tags: Model, Spectral UV, UV Irradiance, Validation
2006, Cordero, R.R., Seckmeyer G., Labbe F, Effect of the resolution on the ‘type A’ uncertainty analysis, Metrologia, 43, L33-L38
Tags: Spectral UV, Validation
2005, Gruzdev, A.N., Elokhov A.S., Ground-based spectrometric measurements of vertical distribution and column abundance of NO2 at Zvenigorod, Russia, SPIE, 5832, 292-299, https://doi.org/10.1117/12.619837
Tags: NO2, UVVis
1998, Elokhov, A.S., Gruzdev A.N. Measurements of column contents and vertical distribution of NO2 at Zvenigorod Scientific Station, SPIE, Vol. 3583, pp. 547-554
Tags: NO2, UVVis
1996, Seckmeyer, G., Bernhard G., Mayer B., Erb R., High Accuracy Spectroradiometry of Solar UV Radiation, Metrologia, 32, 697-700
Tags: Spectral UV, UV Irradiance
1996, di Donfrancesco, G., A. Adriani, G.P. Gobbi, F. Congeduti, Lidar observations of stratospheric temperatures above McMurdo Station (78S, 167E), Antarctica, Journal of Atmospheric and Terrestrial Physics, 58, 1391-1399
Tags: Lidar, Temperature
1995, Elokhov, A.S., A.N. Gruzdev, Estimation of tropospheric and stratospheric NO2 from spectrometric measurements of column NO2 abundances, SPIE, 2506, 444-455
Tags: NO2, UVVis
1994, Lubken, F.J., Hillert, W., Lehmacher, G., Vonzahn, U., Bittner, M., et al., Intercomparison of Density and Temperature Profiles Obtained by Lidar, Ionization Gauges, Falling Spheres, Datasondes, and Radiosondes during the DYANA Campaign, Journal of Atmospheric and Terrestrial Physics, 56(13-14), 1969-1984
Tags: Lidar, Sonde, Temperature, Validation