Wireless energy transfer experiments ,Builders board

[stivep]

Few links allowing you to understand better:
link#6
The application of electromagnetic surface waves to wireless energy transfer
Gary Peterson
The use of guided electromagnetic waves for the wireless transmission of electrical energy has long been the subject of scientific investigation.
While attention is presently focused on the near-field inductive and far-field radiative
techniques there is ongoing interest, as well, in the possibility of using a terrestrial transmission
line mode for wireless power transfer.
A history of surface wave theory development is provided, along with comments about the basic functionality of Tesla's original designs.
https://www.semanticscholar.org/paper/The-application-of-electromagnetic-surface-waves-to-Peterson/f9d3824240e41b4748a403adbd0c140f2f580a06


Grab the original  text if you can !!!!
It is worth your time
Text can be downloaded  for  I believe less than $35

And this is what you need!!!
should I add more than that?
Let me know if anyone have it.

Wesley

[stivep]

At the end of today's session some entertainment:
where  was that?
what year?
https://teslauniverse.com/node/11868
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and another one :
I'm not sure why this was published in Research gate
https://www.researchgate.net/publication/321105897_Paradigm_Lost_Nikola_Tesla's_True_Wireless
let me know if it has any value.
Wesley

[stivep]

Few links allowing you to understand better:
link#7

This link is typical to Zenneck wave information bin,
however it adds to the picture soliton from its quantum perspective.
https://www.think-aboutit.com/rediscovering-the-zenneck-surface-wave/

by definition soliton in classical mechanics is:
a self-reinforcing wave packet that maintains its shape while it propagates at a constant velocity.
https://en.wikipedia.org/wiki/Soliton
https://www.sciencedirect.com/science/article/abs/pii/S0167278998001110

===========================================================
but in quantum world soliton is understood as:
a quantum or quasiparticle propagated as a traveling nondissipative wave that is neither preceded nor followed by another such disturbance.

some controversy as to the value of the article is added by mentioning scalar waves and John Bedini into the picture.
However  it is good that this information is  kept in separate sections of the text.

in this link below  Hebrew University first price went to

Professors Mordechai Segev and Tsvi Piran in the Exact Sciences category. Segev, the Robert J. Shillman
Distinguished Professor of Physics at the Technion,
is receiving the award for his research in nonlinear optics.
Segev was the first to observe 2D lattice solitons and the first to demonstrate a photonic topological insulator.
A soliton is a quantum or quasiparticle propagated as a traveling nondissipative wave that is neither
preceded nor followed by another such disturbance.

https://www.marketscreener.com/EXACT-SCIENCES-CORPORATIO-9232/news/EXACT-Sciences-EMET-Prize-announces-new-cadre-of-winners-28803469/

Mordechai Segev^[3]
was also doctoral advisor of  than postgraduate  and now profesor of MIT
Marin Soljačić   https://en.wikipedia.org/wiki/Marin_Solja%C4%8Di%C4%87

(Mordechai Segev and Marin Soljačić, then at Princeton), together with Menyuk, made the connection between solitons and fractals 13.
Solitons are self-trapped wavepackets that interact with one another in a manner similar to the way that particles do.
In some cases, solitons are self-similar; that is, their shape
http://www.mit.edu/~soljacic/fractal-optics_NatPhot.pdf




As convoluted as it sounds
Dr Corum from Viziv used in his papers  2D lattice
made of air and earth called interface as the medium for Zenneck wave.
And if it was only him I would not be taking it so serious ,so demanding of careful consideration.
It is an army of scientists who have no problem with interface made of two materials  having different dielectric properties
such as :
-two different dielectrics,
-dielectric and conductive plate
-air as dielectric and earth as  lossy conductive medium

by use of  descriptor :
-lossy conductive
we understand also
lossy  dielectric  - it is all the same but differently written.
it could be  the plate , wire, or other medium that has some conductivity and some dielectric properties
For the  interface that can  make the signal  to travel in it  important is  to have combination of the two.
But if we make medium from two different dielectrics  than that   joining edge of two of them is also  able to  allow to  wave to travel.


So in regards to Dr Corum and Viziv  in the first link here :

The first recorded solitary wave was observed in the 1834 when a young engineer named John Scott Russell

but this is again classical mechanics

So what  quantum mechanics has to do with that?:
Well:

Prof. Segev  (Hebrew  University) was the first to observe 2D lattice solitons and the first to demonstrate a photonic topological insulator.
_{Photonic phenomena belongs to Quantum physics.}
A soliton is a quantum or quasiparticle propagated as a traveling nondissipative wave
https://www.cfhu.org/news/emet-prize-announces-new-cadre-of-winners-two-are-from-hebrew-university/

So if it is nondissipative wave
and is mentioned also in this quasiscientific article
https://www.think-aboutit.com/rediscovering-the-zenneck-surface-wave/

Propagation of such a signal through a transmission line or conductive path apparently takes the form of
successive solitons that regenerate their spherical pattern much like a smoke ring vortex.
It is an enfolded structure consisting of high rotation energy in the doughnut shape

_{don't take it literally}

We have ground for Dr Corum statement that inverse square law doesn't affect Zenneck wave the way we would expect it to affect.
We also know that  the lower is the frequency  , the lower are the losses over the distance.

The power loss experienced by this pulsed, electrostatic discharge mode of propagation was less than 5% over 25,000  miles.
Dr.  Van  Voorhies  says,  "...path  losses  are 0.25  dB/Mm  at  10  Hz",  which  often  is  difficult  for engineers  to  believe, 
who  are  used  to  transverse  waves,  a  resistive  medium,  and  line-of-sight  propagation  modes
https://www.integrityresearchinstitute.org/IRIANNUAL2016.pdf

Wesley

[stivep]

Few links allowing you to understand better:
link#8
Classical Goubau G-line  transmission  -the predecessor of its other form the Zenneck wave in the interface
http://amasci.com/tesla/tmistk.html

Wesley

[stivep]

Few links allowing you to understand better:
link#9
In analysis  of more than 200 patents and  pending applications of Dr Corum there is new  development
of additional  information that have been  discovered in existing Viziv structure and now is  implemented in new patents.
the new of what  is already known starts from page 45 and  fig 23
https://patentimages.storage.googleapis.com/3c/95/53/ee7bf7fa504c00/US9882436.pdf
but that is very interesting.
I understand that most of you don't want to spend your time and fallow the progress.

You know already about thunderstorm that may ruin your house and change your life  but you don't care.
For me it is exciting and very entertaining
but that is me, how  about you ?

I'll analyze it  and formulate my conclussions

Wesley