Recent content by BDOA

No, not quite orginal. Look up QCD ghost dark energy at ArXiv, e.g. here. In flat space expansion the quarks in a vacuum aparaently doesn't change the energy. But in curved space, the effect of Hubble expansion on a condensate of quarks in the vacuum, is according to the above paper, enough to...

The first constraint is the anomally triangle diagrams, any new force needs to satisfy these constraints. However adding addition fermions could allow extra forces to exist. After that, the symmetry group and the mass of the force carriers need to be found. Any new force, needs to have hidden...

This is wrong, A Majorana mass term stops conservation of any charge that reverses under electromagnetic charge conjugation, but is just fine if stays the same under C, but reverses under P, I've been looking at such an axial force for 5+ years, and still believe it is possible.

Yes QED increases the electron mass. Infinitely in fact, the bare mass of the electron is infinite, and QED screening gives an infinite subtraction to it, given an electron mass of ∞-∞ = anything finite. QED isn't very predictive for masses. But QED doesn't work for a massless electron, and...

If the vacuum contains all these Higgs bosons, at expectation of <246> GeV in vacuum, why isn't there a cosmological constant, given the vacuum an energy density of 246 GeV^4 , instead we see dark energy at a few meV^4. Could just say that the graviton doesn't couple to the Higgs at all, but...

I've also looked at detection of fifth force is neutron scattering experiments, and its clear that unless any fifth force is very weak indeed, if neutrons are charged with it, it would have shown up already in neutron scattering experiments. This applies to the U(1) B, U(1) L, any U(1) B-L, (all...

Update. Guess none of your reading spotted it, but I used the wrong formula of the Fermi energies of neutrinos in my paper, so it needed updating. See below: The paper is about possibility of a fifth force, which acts primary between neutrinos. The strength of the force is unknown, but can...

Have you seen this paper, Federico Urban and Ariel Zhitnitsky, "The QCD Nature of Dark Energy", http://lanl.arxiv.org/abs/0909.2684", They claim can generate approximately the right amount of dark energy in the universe, just from the effect of the normal Hubble expansion upon the QCD vacuum...

From what I've understood of the paper and the above discussion, this might we'll be the death blow to either inflation or string theory, because they are incompatible. Peter Woit will have to write a new book, String Theory: Now Really Wrong. Actually the picture doesn't look to bleak for dark...

Blechman above is right, The weak force has no CP problem, because it explicitly breaks CP. its group is SU(2)_L acting only on left handed particle and right handed antiparticles. This is maximal CP violation. Now it might be that there is also a right handed version of weak force carriers...

I'd better let everybody here know that my paper was rejected by Elsevier for the Journal of astroparticle physics. They were plenty of points about my writing style, (and frankly i know i have problems the're i read so fast, that I'm misprint blind and been like that all my life). But the...

Three generations fits nicely into Exception group 8, one of string theories fav groups, and the group that Lisi Garret use for his ToE, <A HREF="https://www.physicsforums.com/showthread.php?t=196498">ESToE</A>. Basicly E8 breaks to three copies of E6 and anti-E6, three generations of particles...

Plasma conducts rather well, so if an electric field was placed across a plasma, would normally be conducted away though the electrodes. But perhaps using magnets to trap the electric charges at either end, might make for a stable plasma capacitor. Its not obvious to me that such a...

Neutrino Oscillation Its because the states with the different masses are not the states matching the muon, tau or electron. So mass state 1, is a superposition of an electron and muon neutrino. And so on. Neutrinos are born (and die) as a definite lepton type state. But the velocity they...

Thanks for reading the paper, nice to get some interest, and I'm very glad you thinks its publishable. I do seem to have a missprint in table, of charge assignments, there isn't a bar(v_L) only a bar(v)_R and a bar(N)_L. For the quarks, (see text), Q(u)-Q(d) = -1, so that u -> d + e^+ + v_e...