Thursday, June 12, 2008

Antimatter is Gravitationally Repulsive

In an article on NewScientist, there are two proposals to detect whether antimatter is gravitationally repulsive to matter, or not. Fermilab in Chicago and CERN in Switzerland are proposing experiments, which they hope will detect the gravitational relationship of matter and antimatter.

The Aether Physics Model induces that matter and antimatter must be gravitationally repulsive. This can be determined from the observation that two photons can join together to produce a positron-electron pair. Positrons and electrons are massive particles with the same mass, but opposite spins. The two photons must be the source of the angular momentum needed to produce these two particles, which means the right and left spin must already exist in the photon in quantities equal to half the mass of the electron and half the mass of the positron.

Standard Model theory denies the existence of Aether. Yet, the Aether provides the quantifiable structure needed for understanding how electron and positron angular momentum can coexist in the same photon.

The photon and Aether structures are geometrically identical. If the positron and electron angular momentum coexist in an Aether unit, and the photon has zero mass, then in order for two photons to produce a positron-electron pair the positron and electron masses must be opposite and therefore be gravitationally repulsive.

Further evidence of antimatter repulsiveness is observed in positron clouds drifting through space. The only way positron clouds could congregate in the wide spaces is if they were repelled from normal matter at great distances. Although gravity is a weak force, it works at great distances.

This is one experiment I would like Fermilab and CERN to get funding for. Not only could it provide strong evidence in favor of the Aether Physics Model, but it could also reveal a great weakness of General Relativity theory.

Monday, June 02, 2008

Gravitational Waves Detected

The magnetic scalar wave detector is a success! We have captured our first gravitational wave with its associated gamma ray burst. The raw data is available online and is accessible from the Magnetic Scalar Waves page. An Excel spreadsheet lists the exact gravitational wave times along with the GRB time.

In the future, there will likely be gravitational waves listed and no associated gamma ray burst. This is because not all GRBs can be detected due to interference from the Sun, Earth, and Moon. Also, there are occasional satellite equipment malfunctions due to changes in the space environment.

We are presently looking for a theoretical physics partner who is affiliated with a University or professional lab/observatory. If you are interested in collaborating with us, please contact David Thomson through the profile link in the right column.