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Transcript
PROPAGATION OF
ELECTROMAGNETIC WAVES
IN A DILUTE PLASMA
Plasma -- an ionized gas.
Electric current is carried by electrons and
ionized atoms. Because the electrons are
much less massive than the ions, the current
is dominated by the electron motion.
(ae = F/me >> F/mion = aion)
Use the classical electron model for the
current.
The conductivity is complex!
What does that imply about the propagation of
electromagnetic waves? (We previously
studied the effect of conductivity with real σ.)
*
Case of a Dilute Plasma
It’s not simply that ne is small,
because σ is proportional to ne .
What we mean is that collisions
are rare. Then γ is small, i.e., iωγ <<
mω2.
Energy sloshes back and forth
between the fields and the
current, but there is no energy
loss.
The Dispersion Relation
i.e., the relation between k
and ω ...
Propagation of Electromagnetic Waves
First, high frequencies …
Propagation of
finite
electromagnetic
waves, i.e., waves
with finite
longitudinal
extent (as
opposed to ideal
plane waves).
(pulses or wave
packets)
Propagation of Electromagnetic Waves
Second, low frequencies …
In electrostatics an electric field does not penetrate into a conductor (e.g., a plasma); the electrons move
to screen the electric field.
Exercise. For low frequencies (ω < ωp) calculate the attenuation length .
The Ionosphere
Lecture 13.5
*
Exercise –
What is the attenuation length in the plasma?