Abstract
Laser techniques for the remote sensing of atmospheric pollutants are reviewed, with attention given to lidars based on Rayleigh and Mie scattering, the Raman effect, or fluorescent scattering. Emphasis is placed on differential absorption lidars, which rely on Rayleigh or Mie scattering for measurements made in the IR or in the visible-UV range, respectively. A comprehensive air pollution monitoring program based on differential absorption lidars, together with systems using fluorescent backscattering and absorption measurements with topographic backscattering, is described.
Citation Formats
Corio, W, Querzola, B, and Zanzottera, E.
Remote measurement of atmospheric pollutants with laser techniques.
Italy: N. p.,
1979.
Web.
Corio, W, Querzola, B, & Zanzottera, E.
Remote measurement of atmospheric pollutants with laser techniques.
Italy.
Corio, W, Querzola, B, and Zanzottera, E.
1979.
"Remote measurement of atmospheric pollutants with laser techniques."
Italy.
@misc{etde_6458360,
title = {Remote measurement of atmospheric pollutants with laser techniques}
author = {Corio, W, Querzola, B, and Zanzottera, E}
abstractNote = {Laser techniques for the remote sensing of atmospheric pollutants are reviewed, with attention given to lidars based on Rayleigh and Mie scattering, the Raman effect, or fluorescent scattering. Emphasis is placed on differential absorption lidars, which rely on Rayleigh or Mie scattering for measurements made in the IR or in the visible-UV range, respectively. A comprehensive air pollution monitoring program based on differential absorption lidars, together with systems using fluorescent backscattering and absorption measurements with topographic backscattering, is described.}
journal = []
volume = {48}
journal type = {AC}
place = {Italy}
year = {1979}
month = {Mar}
}
title = {Remote measurement of atmospheric pollutants with laser techniques}
author = {Corio, W, Querzola, B, and Zanzottera, E}
abstractNote = {Laser techniques for the remote sensing of atmospheric pollutants are reviewed, with attention given to lidars based on Rayleigh and Mie scattering, the Raman effect, or fluorescent scattering. Emphasis is placed on differential absorption lidars, which rely on Rayleigh or Mie scattering for measurements made in the IR or in the visible-UV range, respectively. A comprehensive air pollution monitoring program based on differential absorption lidars, together with systems using fluorescent backscattering and absorption measurements with topographic backscattering, is described.}
journal = []
volume = {48}
journal type = {AC}
place = {Italy}
year = {1979}
month = {Mar}
}