Your search keyword '"AEROSOL DECADAL TRENDS"' showing total 3 results

1. A generalised background correction algorithm for a Halo Doppler lidar and its application to data from Finland

Author

Tuukka Petäjä, Ewan O'Connor, Ville Vakkari, Antti Manninen, Department of Physics, and Aerosol-Cloud-Climate -Interactions (ACCI)

Subjects

Atmospheric Science, 010504 meteorology & atmospheric sciences, Backscatter, 114 Physical sciences, 01 natural sciences, Noise (electronics), Background noise, 010104 statistics & probability, symbols.namesake, HEIGHT, REGRESSION, Sensitivity (control systems), lcsh:TA170-171, 0101 mathematics, Physics::Atmospheric and Oceanic Physics, 0105 earth and related environmental sciences, Remote sensing, STATIONS, lcsh:TA715-787, Turbulence, lcsh:Earthwork. Foundations, AEROSOL DECADAL TRENDS, WIND, lcsh:Environmental engineering, Aerosol, GAW, Lidar, PRECIPITATION, symbols, Environmental science, Doppler effect

Abstract

Current commercially available Doppler lidars provide an economical and robust solution for measuring vertical and horizontal wind velocities, together with the ability to provide co- and cross-polarised backscatter profiles. The high temporal resolution of these instruments allows turbulent properties to be obtained from studying the variation in radial velocities. However, the instrument specifications mean that certain characteristics, especially the background noise behaviour, become a limiting factor for the instrument sensitivity in regions where the aerosol load is low. Turbulent calculations require an accurate estimate of the contribution from velocity uncertainty estimates, which are directly related to the signal-to-noise ratio. Any bias in the signal-to-noise ratio will propagate through as a bias in turbulent properties. In this paper we present a method to correct for artefacts in the background noise behaviour of commercially available Doppler lidars and reduce the signal-to-noise ratio threshold used to discriminate between noise, and cloud or aerosol signals. We show that, for Doppler lidars operating continuously at a number of locations in Finland, the data availability can be increased by as much as 50 % after performing this background correction and subsequent reduction in the threshold. The reduction in bias also greatly improves subsequent calculations of turbulent properties in weak signal regimes.

Published

2016

2. A generalised background correction algorithm for a Halo Doppler lidar and its application to data from Finland

Author

University of Helsinki, Department of Physics, Manninen, Antti J., O'Connor, Ewan J., Vakkari, Ville, Petäjä, Tuukka, University of Helsinki, Department of Physics, Manninen, Antti J., O'Connor, Ewan J., Vakkari, Ville, and Petäjä, Tuukka

Abstract

Current commercially available Doppler lidars provide an economical and robust solution for measuring vertical and horizontal wind velocities, together with the ability to provide co- and cross-polarised backscatter profiles. The high temporal resolution of these instruments allows turbulent properties to be obtained from studying the variation in radial velocities. However, the instrument specifications mean that certain characteristics, especially the background noise behaviour, become a limiting factor for the instrument sensitivity in regions where the aerosol load is low. Turbulent calculations require an accurate estimate of the contribution from velocity uncertainty estimates, which are directly related to the signal-to-noise ratio. Any bias in the signal-to-noise ratio will propagate through as a bias in turbulent properties. In this paper we present a method to correct for artefacts in the background noise behaviour of commercially available Doppler lidars and reduce the signal-to-noise ratio threshold used to discriminate between noise, and cloud or aerosol signals. We show that, for Doppler lidars operating continuously at a number of locations in Finland, the data availability can be increased by as much as 50% after performing this background correction and subsequent reduction in the threshold. The reduction in bias also greatly improves subsequent calculations of turbulent properties in weak signal regimes.

Published

2016

3. Trends in atmospheric new-particle formation: 16 years of observations in a boreal-forest environment

Author

Nieminen, Tuomo, Asmi, Ari, Dal Maso, Miikka, Aalto, Pasi P., Keronen, Petri, Petaja, Tuukka, Markku Kulmala, Kerminen, Veli-Matti, Helsinki Institute of Physics, Department of Physics, and Aerosol-Cloud-Climate -Interactions (ACCI)

Subjects

GROWTH-RATES, SULFURIC-ACID CONCENTRATION, NUMBER CONCENTRATIONS, education, SIZE DISTRIBUTION MEASUREMENTS, TRAJECTORY ANALYSIS, AEROSOL DECADAL TRENDS, SMEAR II STATION, NUCLEATION MODE PARTICLES, 114 Physical sciences, CLOUD CONDENSATION NUCLEI, TERNARY NUCLEATION