An Axial Force Engine.

If the axial force exists, and KeV right handed neutrino swarm around heavy neuclei, to cancel out the axial charge. Then an Engine releasing heat engine, is possible. The main material used would be a salt of heavy elements, e.g. Barium Iodide, that releases heat on mixing with water. In Axial Force Theory part of the heat comes from the fact that heavy right handed neutrinos, HRHN, surround the heavy element, while anti-HRHN surround the hydrogen in water. On solution, the anti and regular neutrinos annhilate release axi-photons that a absorbed by other neucli and become heat energy. The solvated water and salt, can then be allowed to dry out, during drying background neutrinos are absorbed into water and anti-neutrinos into the salt. The process may then repeat. Thus an engine formed, that creates heat energy from background cosmic neutrinos.

MiniBoone experiment finds 4.7 Sigma Excess of electron neutrions where muon neutrino expected

This papger, explains it by the decay of around 100MeV right handed neutrinos to a left handed electron neutrinos via a axion like particle (spin 0 Boson), MiniBoone Excess Paper more detail to come

Found paper on Explaining Reactor 5 MeV neutrino excess with axial or vector neutrino interaction

Experiments measuring neutrino fluxes from nuclear reactors have found an excess of neutrinos at 5 MeV. effrey M. Berryman, Vedran Brdar, and Patrick Huber wrote a paper arXiv:1803.08506. That seeks to explain this by neutrinos ejecting neutrons from carbon-13 via an new interaction, either vector or axial. They actually found a good fit, but then rule it out by the lack of deutrium photodistintegration from neutrinos. Without a full calculation, we suggest, that given a charge assignment of plus a half on protons and minus a half on neutrinos, deutrium will be overall neutral to the new force, and only weakly interact via dipole moment, carbon-13 however a an uncancelled neutron that can full interact with the new force. Such a charge assignment is one we made for the axial force in 2009.

Found paper that shows Miniboone electron neutrino excess can be well fitted by a sterlie neutrino decaying to electron neutrino

The paper arvix:1911.01427 Finds a good fit for a forth sterile 1eV-100Kev neutrino decaying to electron neutrinos and a light boson, in the same mass range. This fits with my 2009 paper where there are right handed neutrinos decay to anti-left handed ones and a axiphoton.

Some paper similar to my 2009 paper, came out this week.

Reading Arxiv,found two paper similar too my 2007 paper. Firstly arXiv:2010.10034 which derives Dark energy from a pair of very light fermions charged under a new U(1) force, but with unequal mass in the fermions. Second, arXiv:1902.009950 Alikhanov and Paschos, introduce a axial U(1) force for neutrino. But here the new force interacts only with the right handed neutrinos not the left. They find their axial force, fits with current experiments. Please the high energy physics community are catching up with me:-). Actually axial forces have been in theorections minds since the 1970s.

Had my game posted to the Google App Play Store

Virii Attack. Have a Play its free. Game Web Site Here.

My next project, learning BCS Superconductor Theory, Interested in the Math Behind the Photon Gaining Mass.

After taking a brake to learn React Javascript, i'm using the Covid lockdown to do more work on rewriting my paper. And I have a confession to make, my claim, that Dirac neutrinos couldn't interact with an axial force, but majorana ones could, http://vixra.org/abs/0907.0005, is wrong. In fact neither can. I had incorrectly quoted the mass matrix for Majorana Neutrinos, with the spinor for left and right neutrinos instead of the Dirac Spinor. Here are the equations for guage invariance of the axial force.

Edit, working on a React Native Mobile Game Virii Attack