Thursday, March 3, 2016

The Data Supporting LIGO' s Failure.

LIGO data event occurred on 9/15/2015 or 9/16/2016 depending on where you live on the planet. What surprised me most is that the scientist at LIGO did not look to the Sun as the origin of the event.

The Earth experienced earthquakes on 9/15/2015 and 9/16/2016  in Chile. An 8.4 located near Santiago 20:20 local time. "The total number of aftershocks through 5 a.m. Chile time on Tuesday, September 22, 2015 (128 hours after the earthquake), has been 563, of which 29 (5%) have been between 5.5 and 7.6 on the Richter Scale. "  credit  John Cobin.

Lets look at the solar data from 9/13/2015 20:00

Notice the many Delta class sunspots. 

Then we have the solar flare monitor

What we see here are several solar flares emitting vast amounts of energy at the Earth. They happen to hit the earth at the exact time LIGO records an event.

Here is the magnetosphere being bombarded by solar flares when LIGO says two blackholes collide.

None of this was ruled out by LIGO. At best this is poor science. At its worst, it is scientific fraud. Trying to maintain Einstein's work.

Monday, February 29, 2016

Axiom Six, Data Flow and Order of Operations of Baryonic Communications Output of Data

I have understood light has always been characterized as a wave and a particle. But they are correct in say it is only received through the electron. This model suggest the photon is a lateral wave. It has electromagnetic properties, spectra records, frequency, wavelength, rotation, temperature, velocity and length. This produces all the aspects a wave and yet its temperature and length causes one to understand it as having particle properties. This is an incorrect assumption. It is a data stream.

In this model a Z Boson induces an electron to emit a photon. This process of creation of the electron causes the oscillations in the electron as it stores the nuclear data from the baryon nucleus transmitted by the Z Boson as a Birkeland current.

The electron during the storage process causes release of a perpendicular oscillation of density called the Phonon.

After the Photon data is stored in the electron it is emitted as a Photon. The electron emits the data in a stream that has length, a starting point, the stream of data, and an ending point. This accounts for the quasi particle properties.

As the electron emits the photon it releases a Magnon. This is a perpendicular wave longitudinal spiral magnetic wave.

So the length and data of the photon causes the other particle quasi output properties.

One electron is responsible for three output waves. 2 longitudinal and one lateral. The  two longitudinal are density (Phonon) and magnetic (Magnon) , and the lateral wave is heat, spectra, wavelength, frequency, (photon).