IUBio

Physics - Cerenkov Radiation

k p Collins kpaulc at [----------]earthlink.net
Fri Dec 26 04:19:43 EST 2003


"k p Collins" <kpaulc@[----------]earthlink.net> wrote in message
news:vSPGb.9920$IM3.9100 at newsread3.news.atl.earthlink.net...
> [...]

"Cerenkov Radiation":

is 'blue'-frequency EM that's emitted when the velocity of an
SSW<->UES harmonic through a non-conducting medium
exceeds the speed of light in that medium,

It occurs with Geometry that's roughly analogous to the
'shock-wave' dynamics of a "sonnic boom", and is, liter-
ally, a UES-'compression', which is the set of things to
which I was referring [inappropriately in the context of
Peter F.'s post] to as:

"`just' more setting-up of fleeting SSW<->UES harmonics,
replete with a rigorously-coupled 'light show' through which
the harmonics' 'winking-out' can be observed"

Get it?

It's a fleeting observable instance of the energy-'trapping'
that's inherent in much-more-stable 'atomic' instances of
SSW<->UES harmonics, and, in the Cerenkov radia-
tion dynamics, there's a =energy-threshold= that literally
maps the onset and relative 'stability' of the energy-
'trapping' of =all= SSW<->UES harmonics.

In the Cerenkov radiation, one can literally See the stuff
of the SSW<->UES harmonics - one can literally See
the UES and measure it's local 'pressure' - one can
literally See WDB2T's one-way-flowing-ness [it's
directly observable in the 'winking-out' of the radiation].

What's more, the Cerenkov radiation dynamics are rig-
orously-dependent upon the index of refraction of the
'target' material and the velocity of the SSW<->UES
harmonic that generates the UES-'shock wave', which
maps these 3-D energydynamics rigorously into the Maths
given in the little Compton Refraction apps that I posted
last winter.

Everything that's here is [further] Testable [for anyone who's
read my prior discussions of Tapered Harmony's reification
of physical reality, what's here stands already Confirmed in
just what's here].

Cerenkov radiation is quite 'fundamental' in modern Physics
because it's the foundation for many detector designs, which,
through what's here, reveals the depth at which Tapered
Harmony's position encompasses known experimental results.

It's also in the way I proposed for Testing the stuff I discussed
in my prior post with respect to the "Casimir effect", =iff= the
Casimir effect is observable with non-conducting 'plates'. Iff that's
so, then by shooting SSW<->UES harmonics through the gap
between the plates, the asymmmetries of the SSW<->UES
harmonics comprising the plates [see the prior discussion] could
be observed [and probably already have been in the so-called
"anomolous Cerenkov radiation"]. This's be-cause the UES-
'compression' wave inherent in the Cerenkov radiation will interact
differentially with SSW<->UES harmonics that are at different
distances from the ephemerance-restricting gap. [Other, more-
complex experimental designs also come to mind, if anyone's
interested.]

Volumes can be written on Cerenkov radiation from Tapered
Harmony's position, but, unless anyone takes up the discussion,
I'll leave it at what's here.

K. P. Collins





More information about the Neur-sci mailing list

Send comments to us at biosci-help [At] net.bio.net