Dispersion controlled

Stingl A, Lenzner M, Spielmann C, Krausz F and Szipscs R 1996 Sub-10 fs mirror-dispersion-controlled Tfsapphire laser Opt. Lett. 20 602-4... 

In the same way, short microbore LC columns packed with small particles will make very stringent demands on dispersion control in LC detecting systems. 

For use in interpreting infinitesimal pulse-function distributions, or chromatograms (cf. Section IV, C, 2), with longitudinal dispersion controlling, differentiation of Eq. (113d) yields... 

When explosive concentrations in soils were sufficiently high to produce free product in the soil, solubilization was the dominant mass transfer process. When concentrations were low, desorption, convection, and dispersion controlled solution phase concentrations. Surfactants generally increased solution phase concentrations of explosives however,... 

The importance of dispersion control in FI A has been stressed in Chapter 1. This is a vital factor in the optimization of FI column systems designed for sensitivity enhancements, and should be taken into consideration at all phases of method development. The fundamental and practical aspects for minimizing dispersion in the different. sequences of operation are discussed separately in the following sections. 

Uchiyama, A, Ono, Y, Ikeda, Y, Shuto, H., and Yahata, K. (2012). Copolycarbonate optical films developed using birefringence dispersion control, Pol m., 44,995-1008. 

Fig. 6.24 Schematic diagram of the mirror dispersion controlled (MDC) Tiisapphire oscillator used for soft-aperture and hard-aperture mode locking [679]...

R. Szipocs, K. Ferencz, C. Spielmann, F. Krausz, Chirped multilayer coatings for broadband dispersion control in femtosecond lasers. Opt. Lett. 19, 201 (1994)... 

To create nanocomposites materials with specific applications the nanoparticles dispersion control into the polymer matrices still remains a critical challenge for researchers. So, the development of nanocomposite materials requires control over nanoparticle distribution in the polymer matrix. Making connections between nanoparticle dispersion, enhanced the macroscale properties and evaluated the end of life of this materials is then a crucial aspects that is only now beginning to be considered by researchers around the world. So, make these connections is essential to better development and application of the nanotechnology in the near future. 

Van de Graff et al. [94] used a lattice Boltzmann code to predict the effect of velocity and interfacial tension on the formation of droplets in a T-shaped microchannel. Very good agreement between the simulations and experimental data was obtained and the model was used to show that a combination of the capillary number and the flow rate of the fluid to be dispersed control the droplet size. 

In addition to the work on swelling clays, a method to control the dispersion of non-swelling clays such as kaolin needs to be developed. In terms of mineral processing, non-swelling clays are far more commonly encountered. Thus, if methods were developed for their dispersion control, the potential benefits to industry may be more significant. In general, non-swelling clays such as kaolin... 

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