My Invention: Uvil- Ultraviolet Infrasound Laser

[teslova]

Hello,

I was going to write here from a couple of days, but I still have no free time. Apart from studies and work, all the free time I spend working on my invention.
I called this project UVIL, which means UltraViolet Infrasound Laser. This is not a fully shortened name - the original version of this was UVISSEFL - UltraViolet InfraSound Strong Electrostatic Field Laser.
This device was created in my basement a few years ago, since then perfecting them and doing thousands of measurements and configuration. This system has been reported as a patent and should be formally confirmed within next weeks.


How it's working? How it was created?

A long time ago I noticed that a strong electrostatic field affects the laser beam (above ~ 300kV).
Also the sound wave in the low frequency affects similar to the laser beam.
My system combines the strong electrostatic field, electromagnetic field and acoustic waves (<20Hz), which influence the UV laser beam, which is located inside thesecondary winding coil of the high voltage transformer.
That what I was able to observe and measure was totally inexplicable to me, although I'm working with this already a few years, constantly trying to explain what happens with the laser beam.


Basic information:

UV laser wavelength: 390 nm (beam is in the visible light range slightly visible)
Max. Output voltage: 940kV (system similar to the Tesla transformer)
The frequency of sound waves: 5-20Hz (acoustic wave generator, amplifier, aluminum coil)
The secondary winding of high voltage is within the aluminum coil connected to the amplifier and the acoustic wave generator. Inside the secondary winding is a laser beam. At the end of the HV coil is a torus (horizontally).


Modulated is only the frequency of the acoustic wave, because depends on this the type of the achieved results - the voltage affects only the intensity of effects.

What is going on with the laser beam and materials?


For a variety of materials, on which falls the laser beam, a different frequency changes its own properties.

Tested material for metals was always a welded, empty cube (dimensions 10cmx10cm) 1,5m from the torus.


- Metals - for the frequency of 8-9 Hz lose their electrical conductivity (COMPLETELY on the whole element, even it is compound element.
- Ceramics - the frequency 7-13Hz structure is destroyed, crumble (without changes temperature). At the first look I didn't see any difference. Material was still in a one piece. When I touched this, it was like a sand, crumbled.
- Water - for frequencies 11,3Hz has an electrical resistance equal to 0!
Other liquids not checked. During the tests.
- Polymers - gain surface electrical conductivity. If the laser beam falls on a small part of a large element made of a polymer, the whole element is electrically conductive.

I've tested a lot of difefrent metals, polymers and ceramics. Most of my results is in the paper version. I have a ton of pages, that's why I analyze the results in day and night.

When works only laser and high voltage generator, the laser beam passes through the torus and falls on tested material.
When works only the acoustic wave generator and the laser, laser beam passes through the coil but vibrates.


I checked the different lasers in this field (acoustic wave + electrostatic field) and for every laser with λ*>approx. 580 [nm] no any effects are observed (no vibration).

λ is a wavelength

This is what I saw for other lasers:

λ= 560 nm (light orange) -> vibrations, beam passes through the torus and change it's colour to blue (so λ is changed)
λ= 500 nm (green) -> vibrations, beam passes through the torus and change it's colour to blue/purple (so λ is changed)
λ= 480 nm (green) -> vibrations, beam passes through the torus and change it's colour to purple (so λ is changed)
λ= 435 nm (blue) -> vibrations, beam passes through the torus and change it's colour to light purple (so λ is changed)
λ= 400 nm (purple) -> vibrations, beam passes through the torus and it's invisible (so λ is changed)
λ= 395 nm (purple) -> vibrations, beam passes through the torus and it's invisible (so λ is changed)
λ= 385 nm (light purple) -> vibrations, beam passes through the torus and it's invisible (so λ is changed, described earlier experiment based on this laser).

I want to know how to check the final wavelenght for those lasers, which are invisible after pass through the torus.
I checked this for

λ= 560 nm
λ= 500 nm
λ= 480 nm
λ= 435 nm

and the change of wavelength is not the same for all lasers (much different).
Unfortunately, I can not check it for λ < 435 using a diffraction grating because it is burned.


Measurements

I measured the temperature using a infrared camera.
Conductivity is measured by conductivity meter with special probes.

The measurement was as follow:

1. I set the frequency of the acoustic wave.
2. turned on the laser
3. turned on high voltage generator

And made the first measurement with these parameters (during 2s )

The device has been turned off. Another measurement was made when the material temperature returned to the initial state.

In this way, I made all of the measurements:
Set frequency, turn on all the elements, measurement and shut down.
I checked also the maximum range of the laser, and it was almost 23m. For technical reasons I could not check longer distances. (23m from torus to tested material).

I noted strong magnetic field around the tested materials - max 1-1,5 T!!!!!!!
Professional equipment was able to measure its maximum value at 1,43T! I measured it several hundred times, so there is no mistake.


Questions:

1. If there is such a strong electromagnetic field, I really want to know how does this field looks like.
I put the glass 'table' on plastic supports above the copper cube. On the table sprinkled iron filings. The conditions were very unfavorable, because space around is limited, and the laser's level is quite high.

2. How might look like the output wave (laser) ? Any ideas? How can I check the lenght of wave ...?

3. How all this device does work?

So many measurements..


Waiting for any reply.

Edited March 29, 2016 by teslova