... hard-magnetic Nd
2
Fe
14
B phases respectively. Therefore microwave
Part 5
Electromagnetic Waves Absorption and
No Reflection Phenomena
Wave Propagation
364
Eq. (5). On the other hand, the volume ... wavelength, localized surface waves can
be excited through electromagnetic waves in a free space, as shown in Section 3.1.4. In this
case, we also observe similar wave propagat...
... the dissipation
of the incident electromagnetic wave due to the imaginary part of the dielectric function
88
Wave Propagation
Electromagnetic Wave Propagation in Two-Dimensional Photonic Crystals ... (5)
87
Electromagnetic Wave Propagation in Two-Dimensional Photonic Crystals
Wave Propagation
82
[4] M. M. Sigalas, C. T. Chan, K. M. Ho, and C. M. Soukoulis, Phys. Rev....
... Wave Propagation
118
Fig. 10. (a) Fourier power spectra of the terahertz waveforms of the i-GaAs(d nm)/n-GaAs
samples shown in Fig. 10(a). (b) Time-partitioning Fourier ... eV
i-GaAa/n-GaAs
i-InAs
n-GaAs
(a)
Wave Propagation
112
system for the terahertz wave is shown in Fig. 5 as a photograph. The sample, by being
illuminated by the pump beam, emits a terahertz wave a...
... metallic particles on flat substrates,” Particle & Particle Systems Characterization
16, (1999) 113 118 .
Ripoll, J., A. Madrazo, and M. Nieto-Vesperinas, “Scattering of electromagnetic waves ... non-spherical particles on surfaces,” Opt. Lett. 27,
115 9 -116 1 (2002).
Johnson, B. R, “Light scattering from a spherical particle on a conducting plane, in normal
incidence,” J. Opt. Soc...
... indicate
whether the waves are up-going or down-going. In the exponents, a, b
= 1ifthewavesare
up-going. We let a,b
= −1 if the waves are down-going. The z-component of the mean
propagation constant ... second moment of the wave function E, which can be
decomposed into a coherent part
¯
E and a diffuse part
˜
E. Therefore,
E ⊗ E
∗
= E⊗E
∗
+
˜
E
⊗
˜
E
∗
. (74)
The coherent p...
... f
0
∂v
⊥
.
316
Wave Propagation
Electromagnetic Waves in Plasma 13
(a) Linear scale. (b) Logarithmic scale.
Fig. 1. Linear dispersion relation (frequency ω versus wavenumber k) for electromagnetic
waves ... plasma
particles.
When plasma has the Maxwellian velocity distribution (23), we can explicitly perform the
velocity-space integral by using the following properties,
318
Wave Propag...
... the electromagnetic waves. One sees that LCP waves propagate with no scattering,
and RCP waves are largely scattered.
Next, we analyze the propagation of electromagnetic waves when they are incident ... a particular incident angle. When the wave impedance and the abs olute value of
the wavenumber in the chiral medium equal t hose in the vacuum for one of the CP waves, t he
corresponding C...
... (248 nm), and nitrogen lasers (337 nm) function at a wavelength in the
UV spectrum. Ultraviolet wavelengths are close to the absorption wavelength of DNA (260
nm). As a result, these lasers ... 1987; Hammadeh et al., 2 011; Kochevar et al., 1989).
The next generation of lasers were designed to circumvent dangers of UV wavelength and
cytotoxicity by emitting wavelengths in the infrared ......
... heat-shields and/or
strongly convective burning in the forward stagnation region of a particle.
In this Part 1, formulation of the governing equations is first presented in Section 2, based ...
Concluding remarks for Part 1 are made in Section 6, with references cited and
nomenclature tables. Note that the useful information obtained is further to be used in Part
2, to explore carb...