From my correspondence at Russian-language forum.
Quote:
Quote:
I wrote: Equation of magnetic hole will be achieved at LHC
pB=mc^2.
That means: potential energy (magnetic) = rest energy of proton.
There is no theory of magnetic hole in physics.
Somebody wrote:
Look here (Russian-language article)
http://www.jetpletters.ac.ru/ps/1878/article_28613.pdfMagnetic field was computed at collisions of aurum ions at RHIC experiments. Magnetic flux is quantable in a center of masses reference system, that is why qB = 2 pi k / L^2. According to this formula, (qB)^{1/2}= 348 MeV.
q – electric charge of a quark, L=1.44 fm.
Thanks.
Why here we can see 348 MeV (0.348GeV), but I said that dangerous collisions are collisions with energy 0.25 TeV (250 GeV) per proton, or 510 GeV per collision.
According to my conclusions the minimal dangerous magnetic hole must contain 510 bosons, which can be created at 510 GeV collision. One thirds, or 170 GeV, goes out in the form of radiation, and corresponds to the total binding energy of all bosons inside the hole, or about 1/3 of GeV per every boson.
The mass of every boson inside hole is about 2/3 GeV in energy units.
The number from article, 0.348 GeV corresponds to one quark with the charge 1/3 q. Proton is three-quark (three-polar) structure and for proton we will have the number, which is 3 times bigger, i.e. about 1 GeV.
In a critical magnetic field (10^16 T) proton decays at boson and positron. Boson is captured by hole, where his mass is about 2/3 GeV. The rest, 1/3 GeV, goes into kinetic energy of positron and at gamma photon(s).
Why we did not create a magnetic hole till now?
- Try to throw up 100 coins and to receive all 100 “ups” or all 100 “dawns”.
It is possible, but in order to see such picture, you must throw up these 100 coins approximately 2^100 times (or 1,27*10^30).
No one collider had made this number of collisions.
But the probability can be risen up greatly, if we would raise the energy of collisions.
Or, as they wrote in article: “If magnetic field is defined from qB ~ 1.5 GeV^2, then longitudinal component of a current is much stronger, comparatively to the transverse component, whereas at comparatively weak fields qB ~ 0.3 GeV^2 the enforcement is not observed.” I say that here there is a boundary value of magnetic field for transition of vacuum from antiferromagnetic state into ferromagnetic state.
Conclusion: There are already several little sprouts of magnetic holes theory, but the theory delays drastically comparatively to the experiment. The 20-th February CERN begins work with 3.5 TeV energies per proton. I give 50% that the Earth will be exploded in the nearest weeks. http://darkenergy.narod.ru/
