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Electromagnetic model for

Kerker M., Electromagnetic Model for Surface-Enhanced Raman-Scattering (Sers) on Metal Colloids, Accounts Chem. Res. 1984 17 271-277. [Pg.254]

S. Peer, K.E. Kurtis, and R. Zoughi, An electromagnetic model for evaluating temporal water distribution and movement in cyclically soaked mortar, IEEE Transactions on Instrumentation and Measurement, April 2004, V.53[2], 406-415. [Pg.149]

Alpert Y, Jerby E (1999) Coupled thermal-electromagnetic model for microwave heating of temperature-dependent dielectric media. IEEE Trans Plasma Sci 27 555-562... [Pg.466]

Chin, W.C., General Three-Dimensional Electromagnetic Model for Nondipolar Transmitters in Layered Anisotropic Media With Dip, Well Logging Technology Journal, August 2000, Xi an, China. [Pg.455]

Grcev, L. and F. Dawalibi. 1990. An electromagnetic model for transients in grounding systems. IEEE Trans. Power Del. 5 1773-1781. [Pg.560]

Although much as been done, much work remains. Improved material models for anisotropic materials, brittle materials, and chemically reacting materials challenge the numerical methods to provide greater accuracy and challenge the computer manufacturers to provide more memory and speed. Phenomena with different time and length scales need to be coupled so shock waves, structural motions, electromagnetic, and thermal effects can be analyzed in a consistent manner. Smarter codes must be developed to adapt the mesh and solution techniques to optimize the accuracy without human intervention. [Pg.349]

The recent close-encounter, especially with comet Hale-Bopp, focused the attention of the ground-based telescopes in all regions of the electromagnetic spectrum to produce the molecular inventory shown in Table 6.4. Chemical network models for... [Pg.183]

Fears of homelessness lie dormant in most people, until health or resources are in jeopardy. Any catastrophic or chronic illness can bring those fears and the possibility of homelessness closer to the surface. People with MCS and electromagnetic fields sensitivity (EMFS) are particularly vulnerable. Christina Jacobs is one example, and a model for facing the reality of homelessness with hope and perseverance. She has lived out of her car for most of seven years. [Pg.177]

Kornowski R, Leon MB, Fuchs S, Vodovotz Y, Flynn MA, Gordon DA, Pierre A, Kovesdi I, Keiser JA, Epstein SA. Electromagnetic guidance for catheter-based transendocardial injection a platform for intramyocardial angiogenesis therapy. Results in normal and ischemic porcine models. J Am Coll Cardiol 2000 35 1031-1039. [Pg.126]

It is not possible for conventional electromagnetic models of the electron to explain the observed property of a point charge with an excessively small radial dimension [20]. Nor does the divergence in self-energy of a point charge vanish in quantum field theory where the process of renormalization has been applied to solve the problem. [Pg.5]

He then considered the currents in the Sakata-Okun model for which he derived the expressions for the electromagnetic and weak currents. [Pg.23]

For these reasons there are reasons to consider this model, or a similar variant, as a reasonable model for the unification of gauge fields outside of gravitation. The extension of the gauge symmetries for electromagnetism at high energy, even if the field is 17(1) on the physical vacuum, leads to a standard model with a nice symmetry between chiral fields, and this symmetry is further contained in GUT. [Pg.463]

XII. Beltrami FFMF Topology as a Model for Empirical Electromagnetic Phenomena... [Pg.525]

Taking this model for astrophysics further by postulating a Beltrami field morphology to electromagnetics, Chandrasekhar and Woltjer [15] posited that similar Lorentz force-free fields might exist which are quantified by the relation... [Pg.538]

XII. BELTRAMI FFMF TOPOLOGY AS A MODEL FOR EMPIRICAL ELECTROMAGNETIC PHENOMENA... [Pg.541]

Besides its appearance in the FFMF equation in plasma physics, as well as associated with time-harmonic fields in chiral media, the chiral Beltrami vector field reveals itself in theoretical models for classical transverse electromagnetic (TEM) waves. Specifically, the existence of a general class of TEM waves has been advanced in which the electric and magnetic field vectors are parallel [59]. Interestingly, it was found that for one representation of this wave type, the magnetic vector potential (A) satisfies a Beltrami equation ... [Pg.550]

Figure 10.5. Schematic model for electromagnetic enhancement in SEIRA. Figure 10.5. Schematic model for electromagnetic enhancement in SEIRA.
A Perturbation Model for Electromagnetic-Field Interaction with Excitable Cellular Membranes... [Pg.147]

When the examination was over and the report submitted, a new tumult was raised. Kelvin opposed the theory in general. He could -understand nothing, he said, which could not be translated into a mechanical model. For this reason he had likewise rejected Maxwell s electromagnetic theory of light. Only the Dane submitted an enthusiastic judgment of the... [Pg.150]

Theory of the dielectric function. The discussion of absorption properties of astrophysically relevant solids is frequently based on the classical Lorentz model for dielectric materials. This assumes that the electrons and ions forming the solid matter are located at fixed equilibrium positions in the solid, determined by internal forces. An applied electromagnetic field shifts the charged particles, labeled by... [Pg.346]

Gusarov s theorem is a further generalization of this result for a 2-D geoelectrical model with a piecewise analytic distribution of electrical conductivity. The last two theorems make it feasible to apply the electromagnetic method for examining inhomogeneous geological structures of the earth. [Pg.21]

In summary, two-dimensional models permit a great reduction in the amount of computation necessary for the solution of forward or inverse geoclectric problems. Because of this, such models arc widely used in most problems of electromagnetic modeling and inversion. [Pg.215]

Calculation of the first variation (Frechet derivative) of the electromagnetic field for 2-D models... [Pg.237]


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See also in sourсe #XX -- [ Pg.147 , Pg.148 , Pg.149 , Pg.150 , Pg.151 , Pg.152 , Pg.153 , Pg.154 , Pg.155 , Pg.156 , Pg.157 ]




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