Geoscience Reference
In-Depth Information
Newsom RK, Ligon D, Calhoun RJ, Heap R, Cregan E, Princevac M (2005) Retrieval of microscale
wind and temperature fields from single- and dual-Doppler lidar data. J Appl Meteor 44:1324-
1345
Pekour MS, Kallistratova MA (1993) Sodar study of the boundary layer over Moscow for air
pollution application. Appl Phys B 57:49-55
Pekour MS, Kallistratova MA, Lokoshchenko MA, Petenko IV (1993) Acoustic sounding study of
the mixing layer over a city. In: Optical monitoring of the environment. Proceedings of SPIE
2107:169-193,
http://spie.org
Peña A, Gryning S-E, Hasager CB (2009) Comparing mixing-length models of the diabatic wind
profile over homogeneous terrain. Theor Appl Climatol 100:325-335
Pérez IA, Sánchez ML, García MÁ, de Torre B (2009) Boundary layer structure and stability clas-
sification validated with CO2 concentrations over the Northern Spanish Plateau. Ann Geophys
27:339-349
Peters G, Kirtzel HJ(1994) Measurements of momentum flux in the boundary layer by RASS. J
Atmos Ocean Technol 11:63-75
Peters G, Hinzpeter H, Baumann G (1985) Measurements of heat flux in the atmospheric boundary
layer by sodar and RASS: a first attempt. Radio Sci 20:1555-1564
Peters G, Fischer B, Andersson T (2002) Rain observations with a vertically looking Micro Rain
Radar (MRR). Boreal Env Res 7:353-362
Peters G, Fischer B, Münster H, Clemens M, Wagner A (2005) Profiles of raindrop size
distributions as retrieved by microrain radars. J Appl Meteorol 44:1930-1949
Philbrick CR (2002) Raman lidar descriptions of lower atmosphere processes. Proceedings of the
21st ILRC, Valcartier, Quebec Canada:535-545
Philbrick CR, Mulik KR (2001) Application of Raman lidar to air quality measurements.
Proceedings of SPIE 4035:22-33,
http://spie.org
Pichugina YL, Banta RM, Kelley ND, Sandberg SP, Machol JL, Brewer WA (2004) Nocturnal
low-level jet characteristics over southern Colorado. 16th Symposium on Boundary Layers and
Turbulence, 9-13 August, 2004, Portland, Maine
Pichugina YL, Banta RM, Kelley ND (2005a) Application of high-resolution Doppler lidar data for
wind energy assessment. Paper 6.4 (CD), 2nd Symposium on Lidar Atmospheric Applications.
85th AMS Annual Meeting, 9-13 January 2005, San Diego, CA
Pichugina YL, Banta RM, Brewer WA (2005b) Vertical profiles of velocity variances and TKE
using Doppler-lidar scan data. 17th Symposium on Boundary Layers and Turbulance 22-26
May 2006 San Diego, paper 7.1
Piironen AK, Eloranta EW (1995) Convective boundary layer depths and cloud geometrical
properties obtained from volume imaging lidar data. J Geophys Res 100:25569-25576
Platt U, Heue K-P, Pöhler D (2009) Two- and three-dimensional observation of trace gas and
aerosol distributions by DOAS Techniques. In: Kim YJ, Platt U, Gu MB, Iwahashi H (eds)
Atmospheric and Biological environmental monitoring, 1. Springer Netherlands, 3-11
Pospichal B, Crewell S (2007) Boundary layer observations in west Africa using a novel microwave
radiometer. Meteorol Z 16:513-523
Potvin G, Rogers RR (1999) Measuring vertical heat flux with RASS. Meteor Atmos Phys 71:
91-103
Potvin G, Macpherson JI, Rogers RR, Donaldson NR, Strapp JW (1998) Analysis of heat flux by
RASS and comparison with airplane measurements. Meteorol Z NF 7:262-270
Poulos GS, Blumen W, Fritts DC, Lundquist JK , Sun J, Burns S, Nappo C, Banta RM,
Newsom RK, Cuxart J, Terradellas E, Balsley B, Jensen M (2002) CASES-99: A compre-
hensive investigation of the stable nocturnal boundary layer. Bull Amer Meteorol Soc 83:
555-581
Puygrenier V, Bénech B, Campistron B, Lohou F, Said F, Brut A, Moppert C, Dupont E (2004)
Determination of turbulent parameters in the atmospheric boundary layer with an UHF wind
profiler. Comparison with in-situ measurements. 16th Symposium on Boundary Layers and
Turbulance, Portland, paper 11.1
Search WWH ::
Custom Search