Universidad de Cantabria ON LIGHT SCATTERING BY NANOPARTICLES WITH CONVENTIONAL AND NON-CONVENTIONAL
... The total system is illuminated by a linearly polarized plane wave. Both polarizations, with the incident electric field parallel (TM or P polarization) or normal (TE or S polarization) to the scattering plane are considered. The array is placed in the scattering plane (left panel of Figure 7.1) or ...
... The total system is illuminated by a linearly polarized plane wave. Both polarizations, with the incident electric field parallel (TM or P polarization) or normal (TE or S polarization) to the scattering plane are considered. The array is placed in the scattering plane (left panel of Figure 7.1) or ...
1 - RuG
... Chapter 5 reports on Sn1−xZnxO2 (x≤0.1) hierarchical architectures synthesized by a solvothermal route. Detailed results of the structural, electronic and magnetic characterization of Zn-doped SnO2 hierarchical nanoparticles are explained in the light of recent computational studies that discuss the ...
... Chapter 5 reports on Sn1−xZnxO2 (x≤0.1) hierarchical architectures synthesized by a solvothermal route. Detailed results of the structural, electronic and magnetic characterization of Zn-doped SnO2 hierarchical nanoparticles are explained in the light of recent computational studies that discuss the ...
ENS’05
... constants ε a and superstrate of dielectric constant ε b (Fig.1). The coordinate system is chosen in such a way that z-axis is perpendicular to the interfaces of MPC layers. Visible or near-infrared electromagnetic radiation is incident at the angle θ. During its propagation through the structure, m ...
... constants ε a and superstrate of dielectric constant ε b (Fig.1). The coordinate system is chosen in such a way that z-axis is perpendicular to the interfaces of MPC layers. Visible or near-infrared electromagnetic radiation is incident at the angle θ. During its propagation through the structure, m ...
Role of bianisotropy in negative permeability and left
... values well outside of the range covered by ordinary materials. Thus, for instance, an artificial negative electric permittivity medium 共NEPM兲 can be obtained by using long metallic wires as inclusions,1,2 which simulate the plasma behavior at microwave frequencies. Since free magnetic charges are n ...
... values well outside of the range covered by ordinary materials. Thus, for instance, an artificial negative electric permittivity medium 共NEPM兲 can be obtained by using long metallic wires as inclusions,1,2 which simulate the plasma behavior at microwave frequencies. Since free magnetic charges are n ...
Theoretical calculations of dielectronic recombination in crossed electric and magnetic... D. C. Griffin F. Robicheaux and M. S. Pindzola
... crossed electric and magnetic fields using his configurationaverage DR program. He found substantial enhancement of the DR rate coefficient in support of the prediction of Robicheaux and Pindzola @22#. The intent of the present study is to follow up on the model calculations of Robicheaux and Pindzo ...
... crossed electric and magnetic fields using his configurationaverage DR program. He found substantial enhancement of the DR rate coefficient in support of the prediction of Robicheaux and Pindzola @22#. The intent of the present study is to follow up on the model calculations of Robicheaux and Pindzo ...
Electric Fields - science
... and so the value of k in Coulomb’s law also changes for different materials. Points to bring out about Coulomb’s law: The form is exactly the same as Newton’s Law of Universal Gravitation; in particular, it is an inverse-square law. This force can be attractive or repulsive. The magnitude of the for ...
... and so the value of k in Coulomb’s law also changes for different materials. Points to bring out about Coulomb’s law: The form is exactly the same as Newton’s Law of Universal Gravitation; in particular, it is an inverse-square law. This force can be attractive or repulsive. The magnitude of the for ...
Magnetism - UCF Physics
... a volcano has produced many lava flows over a past period, scientists can analyze the magnetizations of the various flows and from them get an idea on how the direction of the local Earth's field varied in the past. Surprisingly, this procedure suggested that times existed when the magnetization had ...
... a volcano has produced many lava flows over a past period, scientists can analyze the magnetizations of the various flows and from them get an idea on how the direction of the local Earth's field varied in the past. Surprisingly, this procedure suggested that times existed when the magnetization had ...
Abdel-Salam Hafez Abdel-Salam Hamza_2-Abdo
... Unlike the case of normal erection of line towers, and as sensitivity analysis, it is supposed that the towers of the second line are staggered (or displaced) from the towers of the first line by a distance which is called “staggering distance”, as simulated in Figure 4. To investigate such effect o ...
... Unlike the case of normal erection of line towers, and as sensitivity analysis, it is supposed that the towers of the second line are staggered (or displaced) from the towers of the first line by a distance which is called “staggering distance”, as simulated in Figure 4. To investigate such effect o ...
Hyperfine Splitting and Room-Temperature Ferromagnetism of Ni at Multimegabar Pressure
... and elastic properties of Ni at room temperature up to 260 GPa. The magnetic hyperfine splitting at the Ni site was observed up to 260 GPa, which confirms that Ni stays ferromagnetic up to this pressure, the highest pressure where magnetism in any material has been observed so far. Experimental obse ...
... and elastic properties of Ni at room temperature up to 260 GPa. The magnetic hyperfine splitting at the Ni site was observed up to 260 GPa, which confirms that Ni stays ferromagnetic up to this pressure, the highest pressure where magnetism in any material has been observed so far. Experimental obse ...
Magnetic monopole
A magnetic monopole is a hypothetical elementary particle in particle physics that is an isolated magnet with only one magnetic pole (a north pole without a south pole or vice versa). In more technical terms, a magnetic monopole would have a net ""magnetic charge"". Modern interest in the concept stems from particle theories, notably the grand unified and superstring theories, which predict their existence.Magnetism in bar magnets and electromagnets does not arise from magnetic monopoles. There is no conclusive experimental evidence that magnetic monopoles exist at all in our universe.Some condensed matter systems contain effective (non-isolated) magnetic monopole quasi-particles, or contain phenomena that are mathematically analogous to magnetic monopoles.