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Window regions

An overview is provided by figure 4.7 plot (a) shows the numerically determined attractor sets for all 2.9 < a < 4 plot (b) - lest it be thought that the white regions in plot (a) are artifacts of the printing process - shows a blowup view of the windowed region within one of those wide white bands in plot (a). The general behavior is summarized as follows ... [Pg.182]

Fig. 4.8 Four snapshots of the Henon attractor for a = 1.4 and (3 = 0.3. Plots (b), (c) and (d) provide enlargements of the small window regions shown in plots (a), (b) and (c), respectively see text. Fig. 4.8 Four snapshots of the Henon attractor for a = 1.4 and (3 = 0.3. Plots (b), (c) and (d) provide enlargements of the small window regions shown in plots (a), (b) and (c), respectively see text.
Figure 38.19 shows the contour plots of the foaming behaviour, uniformity of air cells and the sweetness of a whipped topping based on peanut milk with varying com syrup and fat concentrations [16]. Clearly, fat is the most important variable determining foam (Fig. 38.19A), whereas com syrap concentration determines sweetness (Fig. 38.19C). It is rather the mle than the exception that more than one sensory attribute are needed to describe the sensory characteristics of a product. An effective way to make a final choice is to overlay the contour plots associated with the response surfaces for the various plots. If one indicates in each contour plot which regions are preferred, then in the overlay a window region of products with acceptable properties is left (see Fig. 38.19D and Sections 24.5 and 26.4). In the... Figure 38.19 shows the contour plots of the foaming behaviour, uniformity of air cells and the sweetness of a whipped topping based on peanut milk with varying com syrup and fat concentrations [16]. Clearly, fat is the most important variable determining foam (Fig. 38.19A), whereas com syrap concentration determines sweetness (Fig. 38.19C). It is rather the mle than the exception that more than one sensory attribute are needed to describe the sensory characteristics of a product. An effective way to make a final choice is to overlay the contour plots associated with the response surfaces for the various plots. If one indicates in each contour plot which regions are preferred, then in the overlay a window region of products with acceptable properties is left (see Fig. 38.19D and Sections 24.5 and 26.4). In the...
Atmospheric windows Regions of the electromagnetic spectrum that allow radiation to pass through the atmosphere to reach the ground. [Pg.307]

Optimization of the window length and window aperture provides a means to optimize sensitivity and resolution. For maximum UV sensitivity, the goal is to illuminate the ID of the capillary with the maximum amount of light. For fluorescence detection a key is to illuminate the ID while minimally illuminating the OD or capillary wall. Slits or apertures have been used to direct light to the capillary window region. [Pg.48]

Yoshino, K., J. R. Esmond, A. S.-C. Cheung, D. E. Freeman, and W. H. Parkinson, High Resolution Absorption Cross Sections in the Transmission Window Region of the Schumann-Runge Bands and Herzberg Continuum of 02, Planet. Space Sci.., 40, 185-192... [Pg.129]

Wavelet analysis takes Gabor s idea one step further it defines a windowing transform technique with variably sized window regions. The continuous wavelet transform of the sequence h(t) is defined by Equation 10.23... [Pg.406]

FIGURE 5 Cross-sectional TEM from two adjacent LEO-GaN stripes. Note the curved side and top surfaces and the wing-like bending near the window regions. [Pg.452]

InGaN and GaN [50-52], Thus, there is a possibility that a leakage current due to a large number of TDs caused the high threshold current density on the window region. Further studies are required to determine the reasons for the high threshold current density caused by TDs. [Pg.592]

These detectors are thin (>500pm) discs of passivated, implanted planar Si (known also as PIPS detectors) for beta and high-energy positron detection they have extremely thin entrance window regions, not deposited metallic films but an ion-implanted region. A detector of active area 50mm2 can detect positrons above 18 keV, with an energy resolution of 6 keV [23]. [Pg.45]

Figure 8.24. BF micrograph of microcline. The intersection of albite twins (A and B) with pericline twins (A and B ) has produced a chessboard pattern of finely twinned regions and untwinned window regions. The electron beam is near [104]. (From Fitz Gerald and McLaren 1982.)... Figure 8.24. BF micrograph of microcline. The intersection of albite twins (A and B) with pericline twins (A and B ) has produced a chessboard pattern of finely twinned regions and untwinned window regions. The electron beam is near [104]. (From Fitz Gerald and McLaren 1982.)...
The infrared (IR) and Raman UV double-resonance spectroscopy of Ph0H(H20) 4 in the OH-stretching vibration region was also smdied . These smdies led to the conclusion that, on the one hand, the symmetric water vj and phenolic OH-stretching (voe) vibrations are downshifted considerably upon the formation of phenol-water complexes (compared with those inherent for bare water and phenol molecules). On the other hand, the antisymmetric V3 vibration of the water molecule is only weakly affected. This results in the appearance of a transparent window region ° in the IR spectrum... [Pg.147]

On inspecting equations 44 and 45, we note a narrowing of the window region for the Jt hydrogen-bonded structure PhOH-ws-b compared to the conventional one with the S, arrangement of water molecules. This implies that some modes of the former structure might fall in the window region of the latter. In the present case, these are two modes one corresponds to and the other to... [Pg.160]

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See also in sourсe #XX -- [ Pg.4 , Pg.41 , Pg.48 , Pg.201 , Pg.202 , Pg.207 , Pg.322 , Pg.325 , Pg.326 , Pg.329 , Pg.330 , Pg.333 , Pg.335 , Pg.336 , Pg.341 ]



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Atmosphere window region

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