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Re: Propagation velocity in long helical coils.
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To: tesla-at-pupman-dot-com
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Subject: Re: Propagation velocity in long helical coils.
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From: Terry Fritz <twftesla-at-uswest-dot-net>
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Date: Fri, 05 May 2000 11:59:49 -0600
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Approved: twftesla-at-uswest-dot-net
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Delivered-To: fixup-tesla-at-pupman-dot-com-at-fixme
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In-Reply-To: <003901bfb69a$afcc8be0$03000004-at-oemcomputer>
Hi Bob,
Wonderful!!! I will bee looking very forward to seeing what you have
found! Any model that can give insight into the secondary behavior at this
level of detail will really be a major advance. Such a model will also
greatly help issues of dynamic streamer impedance, growth, and such where
were still know very little and the present analytical tools are weak. A
model also allows us to poke and prod it to get a much better idea of the
true nature of secondary behavior.
Cheers,
Terry
At 10:00 AM 05/05/2000 -0400, you wrote:
>Hi all,
>
>I believe I have solved the propagation equation numerically.
>The surprising result is the velocity as a function of wavelength repeats
>with a similar form to a 1/2 wave resonance. In fact beating between the
>coupling function and wavelength.
>This produces several possible modes of propagation at least in very long
>coils.
>The effect should readily be detectable in a coil 15 diameters long and
>in the progression of harmonics in a smaller coil i.e. the frequencies will
>be both higher and lower than a 1/4 wave progression with constant
>dispersion. I will post the results when I have them tidy.
>
>Sorry its only numeric I know this is not much better than simulation but
>diabolical integrals are hard even for waveophiles.
>
>
>Regards Bob
>
>
>