Chen M, Weng F (2012) Kramers-Kronig analysis of leaf refractive index with the PROSPECT leaf optical property model. J Geophy Res D Atmosph 117 (17). : 10.1029/2012JD017477Chen M, Weng F (2012) Kramers-Kronig analysis of leaf refractive index with the PROSPECT leaf optical ...
The refractive index of soybean (Glycine max [L.] Merr.) leaf cell walls was measured by two methods. The refractive index of fully hydrated walls in the living leaf was about 1.415, while that of dried cell walls was about 1.53. The refractive index of the external surface of the living...
*[Using the ALL protocol (leaf litter sifting), 125 ant species belonging to 40 genera in 11 subfamilies were recorded, including 98 species from the Ajenjua Bepo site & 101 from Mamang River. The 2 sites seemed equivalent in terms of an... Y Kolo,A Hormenyo 被引量: 10发表: 2009...
Characterization of the size and material properties of particles in liquid suspensions is in very high demand, for example, in the analysis of colloidal samples or of bodily fluids such as urine or blood plasma. However, existing methods are limited in their ability to decipher the constituents ...
Chen M, Weng F (2012) Kramers-Kronig analysis of leaf refractive index with the PROSPECT leaf optical property model. J Geophy Res D Atmosph 117 (17). doi:10.1029/2012JD017477Chen M, Weng F (2012) Kramers-Kronig analysis of leaf refractive index with the PROSPECT leaf optical property ...