Biblio
“The effect of scale on the applicability of Taylor's hypothesis”, in AGU Fall Meeting Abstracts, 2009.
, “Energy dissipation in LES: dependence on flow structure and effects of eigenvector alignments”. 2004.
, “Energy dissipation in large-eddy simulation: dependence on flow structure and effects of eigenvector alignments”, Atmospheric Turbulence and Mesoscale Meteorology, Fedorovich E, Rotunno R.(eds.), pp. 51–69, 2004.
, “The Temperature Gradient and Transition Timescales as a Function of Topography in Complex Terrain”, in AGU Fall Meeting Abstracts, 2013.
, , “The effect of scale on the applicability of Taylor’s frozen turbulence hypothesis in the atmospheric boundary layer”, Boundary-layer meteorology, vol. 143, pp. 379–391, 2012.
, “8.6 THE EFFECT OF EIGENVECTOR ALIGNMENTS ON SUBGRID-SCALE DISSIPATION OF TURBULENT KINETIC ENERGY”, 2002.
, “UAS and Distributed Temperature Sensing Reveal Previously Unseen Atmospheric Processes”, in 2015 AGU Fall Meeting, 2015.
, “The effect of scale on the applicability of Taylor's hypothesis”, in 10th EMS Annual Meeting, 10th European Conference on Applications of Meteorology (ECAM) Abstracts, held Sept. 13-17, 2010 in Zürich, Switzerland. http://meetings. copernicus. org/ems2010/, id. EMS2010-543, 2010.
, “Alignment trends of velocity gradients and subgrid-scale fluxes in the turbulent atmospheric boundary layer (vol 109, pg 59, 2003)”, BOUNDARY-LAYER METEOROLOGY, vol. 110, pp. 479–479, 2004.
, “Measured and estimated water vapor advection in the atmospheric surface layer”, Journal of Hydrometeorology, vol. 14, pp. 1966–1972, 2013.
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