Standard brightness calculation

Protocols of use First register the image brightness of paper matrixes in plates (plate 1) then again register the second image of the plate with biotests (plate 2) (see suppl. 3). The value of D was calculated by the standard formula ... 

Refluxing the mixture of purified potassium in r-amyl alcohol for 3-4 hrs. afforded a solution calculated to be 0.19 Af in potassium 2-methyl-2-butoxide and found by titration with standard acid to be 0.16M. The appearance of the solution seems to be dependent upon the condition of the potassium used. Potassium that melts to a bright shiny pool of metal gives a clear light-colored solution of potassium 2-methyl-2-butoxide. If it melts to a crumbly, semi-solid liquid, the solution of alkoxide is darker colored. 

Figure 7.6 Field intensity calculation by 2-D FDTD method and examples are as shown in [a-e]. The long axis of the nanobars is normal to the image plane this is an end-on view of the long structures positioned on a Si substrate, with a layer of aluminum oxide between the substrate and the silver bars, and water filling the top portion of the frame. Bright areas show the positions of high local electric field, (f, g) Summary plots show the average electric field intensity 8 nm above the surface (at the location of the dashed lines in (a-e]], compared with fluorescence enhancement along two different polarizations. Excitation polarization compared to bar orientation is indicated by the illustrations within the graphs. Intensity plots (a-e] represent the visualization of calculations for points noted by the labels within graphs (f-g], at periods of 316, 1028, 316, 512, and 1028 nm, respectively. Error bars represent the standard deviation for several measurements of different samples [24].

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