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Dispersion relations for several different carbon nanotube structures .

Dispersion relations for the laser equations.

Dispersion relations, calculated for a Ii three-layered structure with different thickness foi of the Mg2Si layer and for four- of layered structure with the same thickness of the 25

Dispersion relationship near the band-edge for cholesteric liquid crystal without magneto-optics coupling showing the possibilities of negative group velocity in the latter case.

Dispersion relationships for surface waves excited in a half space of 42 Ni-Fe alloy with a layer of gold of thickness d, and with water loading k v ca is the propagation number along the specimen surface .

Dispersion relationships of the surface states of Clxl

Dispersion relationships of the surface states of the clean C is a true many-body effect, which could only recently be modeled correctly by theory . The crosses are experimental data from photoemission experiments .

Dispersion relationships of to identify surface-related states and are insurface states and surface resonances of dicated by different shading of the circles in

Dispersion results of Pt Si02 produced from PTA via SEA

Dispersion spectrum. Both spectra

Dispersion stabilities of CNTs in water with 0.01 vol. CNT addition, Relative concentrations of the CNTs suspended in the fluid phase calculated using the inserted calibration curve. Plasma conditions and CNT sample designation are given in Table 3

Dispersion stability of alumina-supported platinum and palladium in H2 and in 02 at

Dispersion surface of dielectric constant of thermoset derived from BCB-2 monomer as a function of temperature.

Dispersion surface of dielectric constant of thermoset derived from BCB-l monomer as a function of temperature.

Dispersion Values of Flexural Strength and Young s Modulus in Flexure Table 3 Test Results

Dispersion velocity plots based on Model 2 .

Dispersion velocity plots for low-concentration xanthan and chloride tracer in a 50-cm sandstone core .

Dispersion versus absorption plot based on the 1 NMR spectrum of the residual HDD in commercial 99.7 D2O. Experimental data are shown as filled circles, and the solid curve is a semicircle whose diameter is set equal to the observed absorption peak height. Taken from ref. 19.

Dispersion versus Peclet number for a, KCl and b, 1,4-DCB from experiments with silica aggregates with different surface preparations.

Dispersion with chain length of the photoinduced infrared spectrum for a series of oligoalkylthiophenes illuminated by a laser light at 514 nm .

Dispersions of electrically conducting polypyrrole particle, in .

Dispersions of four different types of commercial MWCNTs in aqueous solution investigated using CSA in the LUMiSizer . Integral transmission after a centrifugation time of 45 min at 3000 rpm and particle diameter X50 calculated from the CSA plotted versus sonication time and energy input.

Dispersions which fall in this region are called by Church and Shinnar turbulence-stabilized dispersions. As pointed out by them, the function A depends strongly on the phase system and on whether stabilizing colloids are present or not.

Dispersions with hard-sphere like PMMA spheres at volume fractions around the fluid-solid phase transition. From Pusey and Van Megen . Samples are denoted from left to right as samples a, b,... i. See

Dispersions within the eight-variable GCM approach.



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