In the physics of wave propagation (especially electromagnetic waves), a plane wave (also spelled planewave) is a constant-frequency wave whose wavefronts (surfaces of constant phase) are infinite parallel planes normal to the phase velocity vector. By extension, the term is also used to describe waves that are approximately plane waves in a localized region of space. For example, a localized source such as an antenna produces a field that is approximately a plane wave in its far-field region. Mathematically, a plane wave is a solution to the wave equation of the following form:
u(x,t)=a exp[i(k.x-wt)]
where i is the
imaginary unit, k is the wave vector, ω is the angular frequency, and a is the (complex) amplitude. (In some conventions, this expression is conjugated.) The physical solution is usually found by taking the real part of this expression. For the vector wave equation of electromagnetism, a is the vector for the electric or magnetic field (and is orthogonal to k, for an isotropic medium). In this equation, the function ω(k) is the dispersion relation of the medium, with the ratio ω/k giving the phase velocity and dω/dk giving the group velocity. For electromagnetism in an isotropic medium with index of refraction n, the phase velocity is c/n (which equals the group velocity only if the index is not frequency-dependent). For the same reason, the ratio of c to the phase velocity is called the effective index and is proportional to the characteristic impedance of the medium. (The term is used in the same way for telecommunication, e.g. in Federal Standard 1037C and MIL-STD-188.)J. D. Jackson, Classical Electrodynamics (Wiley: New York, 1998).
I know that should make sense to me. I know that I've been studying this for 4 months. And I know that sometime someone is going to ask me a crucial question where the knowledge of such concepts as "planewaves" is necessary. But dammit, I NEED A BETTER EXPLANATION. I get the words. I know what it says. I dont get the part where it becomes a system of protons, neutrons and electrons; with things like band-gaps and dielectric properties.
aaarrrgggg!!
If anyone out there has a reasonably clear grasp on the topics of Plane waves, Fermi energy surfaces, and/or Brillouin zones, among other key topics not covered in my collection of chemistry/physics courses... well, I would really appreciate about 6 hours of tutorial. For each.
Thanks in advance,
Laura Albrecht
BSc. Adv. Maj. Chemistry,
MSVU 2005
If anyone out there has a reasonably clear grasp on the topics of Plane waves, Fermi energy surfaces, and/or Brillouin zones, among other key topics not covered in my collection of chemistry/physics courses... well, I would really appreciate about 6 hours of tutorial. For each.
Thanks in advance,
Laura Albrecht
BSc. Adv. Maj. Chemistry,
MSVU 2005
1 comment:
Hmmm maybe... all I would need is people to believe me. Important people would be good, but any people helps.
:-D this could work! hahaha
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