On Monin–Obukhov Scaling in and Above the Atmospheric Surface Layer: The Complexities of Elevated Scintillometer Measurements
Author:
Publisher
Springer Science and Business Media LLC
Subject
Atmospheric Science
Link
http://www.springerlink.com/index/pdf/10.1007/s10546-012-9716-7
Reference33 articles.
1. Andreas EL (1988) Estimating $${{C}_{n}^{2}}$$ over snow and sea ice from meteorological data. J Opt Soc 5: 481–495
2. Beyrich F, Görsdorf U (1995) Composing the diurnal cycle of mixing height from simultaneous sodar and windprofiler measurements. Boundary-Layer Meteorol 76: 387–394
3. Beyrich F, Kouznetsov RD, Leps J, Ldi A, Meijninger WML, Weisensee U (2005) Structure parameters for temperature and humidity from simultaneous eddy-covariance and scintillometer measurements. Meteorol Z 14: 641–649
4. Bosveld FC (1999) The KNMI Garderen experiment: micro-meteorological observations 1988–1989. Scientific report WR 99-03. KNMI
5. Braam M (2008) Determination of the surface sensible heat flux from the structure parameter of temperature at 60 m height during day-time. Technical report TR-303. KNMI
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