Publicaciones en colaboración con investigadores/as de Universidad de Valladolid (46)

2019

  1. Analyzing the turbulent planetary boundary layer by remote sensing systems: The Doppler wind lidar, aerosol elastic lidar and microwave radiometer

    Atmospheric Chemistry and Physics, Vol. 19, Núm. 2, pp. 1263-1280

  2. Corrigendum to “Evaluation of night-time aerosols measurements and lunar irradiance models in the frame of the first multi-instrument nocturnal intercomparison campaign” (Atmospheric Environment (2019) 202 (190–211), (S1352231019300287), (10.1016/j.atmosenv.2019.01.006))

    Atmospheric Environment

  3. Different strategies to retrieve aerosol properties at night-time with the GRASP algorithm

    Atmospheric Chemistry and Physics, Vol. 19, Núm. 22, pp. 14149-14171

  4. Evaluation of night-time aerosols measurements and lunar irradiance models in the frame of the first multi-instrument nocturnal intercomparison campaign

    Atmospheric Environment, Vol. 202, pp. 190-211

  5. Evaluation of retrieved aerosol extinction profiles using as reference the aerosol optical depth differences between various heights

    Atmospheric Research, Vol. 230

  6. Extreme, wintertime Saharan dust intrusion in the Iberian Peninsula: Lidar monitoring and evaluation of dust forecast models during the February 2017 event

    Atmospheric Research, Vol. 228, pp. 223-241

  7. Ground/space, passive/active remote sensing observations coupled with particle dispersion modelling to understand the inter-continental transport of wildfire smoke plumes

    Remote Sensing of Environment, Vol. 232

  8. Impact of mineral dust on shortwave and longwave radiation: Evaluation of different vertically resolved parameterizations in 1-D radiative transfer computations

    Atmospheric Chemistry and Physics, Vol. 19, Núm. 1, pp. 523-542

  9. Retrieval of optical and microphysical properties of transported Saharan dust over Athens and Granada based on multi-wavelength Raman lidar measurements: Study of the mixing processes

    Atmospheric Environment, Vol. 214

  10. Seasonal analysis of the atmosphere during five years by using microwave radiometry over a mid-latitude site

    Atmospheric Research, Vol. 218, pp. 78-89