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  • Banakh VA, Smalikho IN. 1997. Estimation of turbulent energy dissipation rate from data of pulse Doppler lidar. Journal of Atmospheric and Oceanic Optics 10: 957965.
  • Banakh VA, Smalikho IN, Köpp F, Werner Ch. 1995. Representativeness of wind measurements with a cw Doppler lidar in the atmospheric boundary layer. Applied Optics 34: 20552067.
  • Banta RM, Pichugina YL, Brewer WA. 2006. Turbulent velocity-variance profiles in the stable boundary layer generated by a nocturnal low-level jet. Journal of Atmospheric Science 63: 27002719.
  • Champagne FH, Friehe CA, LaRue JC, Wyngaard JC. 1977. Flux measurements, flux estimation techniques, and fine scale turbulence measurements in the unstable surface layer over land. Journal of Atmospheric Science 34: 515530.
  • Davies F, Collier C, Pearson G, Bozier K. 2004. Doppler lidar measurements of turbulent structure function over an urban area. Journal of Atmospheric and Oceanic Technology 21: 753761.
  • Frehlich R, Cornman L. 1999. Coherent Doppler lidar signal spectrum with wind turbulence. Applied Optics 38: 74567466.
  • Frehlich R, Cornman L. 2002. Estimating spatial velocity statistics with coherent Doppler lidar. Journal of Atmospheric and Oceanic Technology 19: 355366.
  • Frehlich R, Hannon S, Henderson S. 1998. Coherent doppler lidar measurements of wind field statistics. Boundary-Layer Meteorology 86: 233256.
  • Frehlich R, Yannick M, Michael LJ, Ben B, Sharman R. 2006. Measurements of boundary layer profiles in an urban environment. Journal of Applied Meteorology 45: 821836.
  • Grubisic V, Doyle JD, Kuettner J, Mobbs S, Smith RB, Whiteman CD, Dirks R, Czyzyk S, Cohn SA, Vosper S, Weissman M, Haimov S, De Wekker S, Pan L, Chow FK. 2008. The terrain-induced rotor experiment: an overview of the field campaign and some highlights of special observations. Bulletin of American Meteorological Society 89(10): 15131533.
  • Henderson SW, Hale CP, Magee JR, Kavaya MJ, Huffaker AV. 1991. Eye-safe coherent laser radar system at 2.1 µm using Tm, Ho:YAG lasers. Optics Letters 16: 773775.
  • Hill M, Calhoun R, Fernando H, Wieser A, Dörnbrack A, Weissmann M, Mayr G, Newsom R. 2010. Coplanar Doppler lidar retrieval of rotors from T-REX. Journal of Atmospheric Science 67(3): 713729.
  • Hinze JO. 1959. Turbulence: An Introduction to Its Mechanism and Theory. McGraw-Hill: New York; 586 pp.
  • Hodur RM. 1997. The naval research laboratory.s coupled ocean/ atmosphere mesoscale prediction system (COAMPS). Monthly Weather Review 125: 14141430.
  • Kolmogorov AN. 1941. The local structure of turbulence in incompressible viscous fluid for very large Reynolds numbers. Doklady Akademii Nauk SSSR 30: 299303.
  • Köpp R, Schwiesow L, Werner Ch. 1984. Remote measurements of boundary-layer wind profiles using a CW Doppler lidar. Journal of Climatology and Applied Meteorology 23: 148154.
  • Krishnamurthy R, Calhoun R, Fernando H. 2010. Large-eddy simulation—based retrieval of dissipation from Coherent Doppler lidar data. Boundary-Layer Meteorology 136(1): 4557.
  • Lin C, Xia Q, Calhoun R. 2008. Retrieval of urban boundary layer structures from Doppler lidar data. Part II: proper orthogonal decomposition. Journal of Atmospheric Science 65(1): 2142.
  • Mellor GL, Yamada T. 1982. Development of a turbulent closure model for geophysical fluid problems. Reviews of Geophysics and Space Physics 20: 851875.
  • Newsom R, Ligon D, Calhoun R, Heap R, Cregan E, Princevac M. 2005. Retrieval of microscale wind and temperature fields from single- and dual-Doppler lidar data. Journal of Applied Meteorology 44(9): 13241345.
  • Pichugina YL, Tucker SC, Banta RM, Brewer WA, Kelley ND, Jonkman BJ, Newsom RK. 2008. Horizontal-velocity and variance measurements in the stable boundary layer using Doppler lidar: sensitivity to averaging procedures. Journal of Atmospheric and Oceanic Technology 25(8): 13071327.
  • Poulos GS, Semmer S, Militzer J, Maclean G. 2006. A novel method for the study of near-surface turbulence using 3-d hot-film anemometry: OTIHS. 17th Symposium on Boundary Layers and Turbulence. American Meteorological Society: San Diego, USA.
  • Reitebuch O, Werner Ch, Leike I, Delville P, Flamant P, Cress A, Engelbart D. 2001. Experimental validation of wind profiling performed by the airborne 10-µm heterodyne Doppler lidar WIND. Journal of Atmospheric and Oceanic Technology 18: 13311344.
  • Smalikho IN. 2003. Techniques of wind vector estimation from data measured with a scanning coherent Doppler lidar. Journal of Atmospheric and Oceanic Technology 20: 276291.
  • Whiteman CD. 1990. Observations of thermally developed wind systems in mountainous terrain. Atmospheric processes over complex terrain. Meteorological Monogram, American Meteorological Society 45: 542.
  • Whiteman CD. 2000. Mountain Meteorology: Fundamentals and Applications. Oxford University Press: New York; 355 pp.