logo_micrometEl grupo MICROMET de la UCM proporciona una experiencia única en el estudio del clima y la meteorología y su contribución a la caracterización tanto teórica como experimental de los fenómenos meteorológicos a microescala es un factor crucial para poder desarrollar y validar las técnicas de simulación y medida a desarrollar bajo este programa.

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Publicaciones más relevantes

  • Adame JA, Serrano E, Bolívar JP, de la Morena BA. On the tropospheric ozone variations in a coastal area of the southwestern Europe under mesoscale circulation. J.Appl. Meteor. Climatol. 2010; 49: 748-759.
  • Alonso-Estébanez A, Pascual-Muñoz P, Yagüe C, Laina R, Castro-Fresno D. Field experimental study of traffic-induced turbulence on highways.  Atmos. Environ. 2012; 61: 189-196.
  • García-Díez M, Fernández J, Fita L,Yagüe C. Seasonal dependence of WRF model biases and sensitivity to PBL schemes over Europe. Q. J. Roy. Meteorol. Soc. 2013; 139: 501–514.
  • Salamanca F, Martilli A, Yagüe C. A numerical study of the Urban Heat Island over Madrid during the DESIREX (2008) campaign with WRF and an evaluation of simple mitigation strategies. Int. J. Climatol. 2012; 32: 2372-2386.
  • Udina M, Soler MR, Viana S, Yagüe C. WRF simulation of gravity waves triggered by a density current. Q. J. Roy. Meteorol. Soc. 2013; 139: 701-714.
  • Viana S, Terradellas E, Yagüe C, Maqueda G. Analysis of the different regimes of atmospheric turbulence observed during a single night. Nuovo Cimento C. 2008; 31: 723-742.
  • Viana S, Yagüe C, Maqueda G. Propagation and effects of a mesoscale gravity-wave over a weakly-stratified nocturnal boundary layer during SABLES2006 field campaign. Bound.-Lay. Meteorol. 2009; 133: 165-188.
  • Viana S, Terradellas E, Yagüe C.Analysis of gravity waves generated at the top of a drainage flow. J. Atmos. Sci. 2010; 67: 3949-3966.
  • Viana S, Yagüe C, Maqueda G. Vertical structure of the stable boundary layer detected by RASS-SODAR and in-situ measurements in SABLES 2006 field campaign. Acta Geophys. 2012; 60: 1261-1286.
  • Vindel JM, Yagüe C, Redondo JM. Structure function analysis and intermittency in the atmospheric boundary layer. Nonlinear Proc. Geoph. 2008;  15: 915-929.
  • Vindel JM, Yagüe C, Redondo JM. Relationship between intermittency and stratification. Nuovo Cimento C. 2008; 31: 669-678.
  • Vindel JM, Yagüe C. Application of a GOY model to atmospheric boundary layer data. Nonlinear Proc. Geoph. 2009; 19: 599-606.
  • Vindel JM, Yagüe C. Intermittency of turbulence in the atmospheric boundary layer: scaling exponents and stratification influence. Bound.-Lay. Meteorol. 2011; 140: 73-85.