Publications
2020, Di Girolamo, P., Assessment of the potential role of atmospheric particulate pollution and airborne transmission in intensifying the first wave pandemic impact of SARS-CoV-2/COVID-19 in Northern Italy, Bulletin of Atmospheric Science and Technology, 1, 515–550, https://doi.org/10.1007/s42865-020-00024-3
Tags: Lidar, Aerosol, Health
1998, Hannigan, J.W., M.T.Coffey, W.G.Mankin, A.Goldman, Column Observations of HNO3, N2O, HF, HCl, O3 at Søndre Strømfjord, Greenland During Winter 1994–'95, Journal of Atmospheric Chemistry, 30, 103-118
Tags: FTIR, HCl, HF, HNO3, N2O, Ozone
1997, Blumenstock, T., H. Fischer, A. Friedle, F. Hase, and P. Thomas, Column amounts of ClONO2, HCl, HNO3, and HF from ground-based FTIR measurements made near Kiruna, Sweden, in late winter 1994, Journal of Atmospheric Chemistry, 26, 311-321
Tags: ClONO2, FTIR, HCl, HF, HNO3
1996, Panegrossi, G., D. Fua, and G. Fiocco, A 1-D model of the formation and evolution of Polar Stratospheric Clouds, Journal of Atmospheric Chemistry, 28, 5-12
Tags: Aerosol, Lidar, Model, PSC
1990, Farmer, C.B., B. Carli, A. Bonetti, M. Carlotti, B. M. Dinelli, H. Fast, W. F. J. Evans, N. Louisnard, C. Alamichel, W. Mankin, M. Coffey, I. G. Nolt, D. G. Murcray, A. Goldman, G. M. Stokes, D. W. Johnson, W. A. Traub, K. V. Chance, R. Zander, G. Roland, and L. Delbouille, Balloon intercomparison campaigns: results of remote sensing measurements of HCl, Journal of Atmospheric Chemistry, 10, 237-272
Tags: FTIR, HCl