Notice these two quotes, although posted right next to each other, are completely unrelated.
The first one is actual hypothesis that could eventually be discussed - but it is not here for discussion. It's here to suggest the poster has knowledge in the area.
The second one is claim that has no actual foundation in physics of our universe and is not in any way related to the hypothesis in the first.
Completely unrelated?
OK. I’ll insert a couple of sentences.
Sea quarks can be emitted at some angles. The values of angles give us a geometrical structure of Dirack's sea.
A growth of the energy of collisions between particles leads to alignment and correlation effects, which were discovered not so long ago: Chiral Magnetic Effect, registered at RHIC; Many-muon events, registered at Tevatron; Angle-correlations at LHC.
The further growth of alignment and correlation effects can lead from continues quantitative change to sharp qualitative change.
Future heavy-ion collisions will create a magnetic field region, which will be dozens of times greater in spatial dimensions and in the value of magnetic induction.
A region of exited ferromagnetic vacuum of Savidy can be created. (Magnetic hole).
If it will be stable, it can grow and ruin the ordinary matter:
M_{N} + p -> M_{N+1} + e^+ + 300 MeV.
M_{N+1} + p -> M_{N+2} + e^+ + 300 MeV.
M_{N+2} + p -> M_{N+3} + e^+ + 300 MeV.
…
The second one is claim that has no actual foundation in physics of our universe and is not in any way related to the hypothesis in the first.
If you think that bosonic condensate of magnetic hole has no actual foundation in physics, then I can change it by fermionic condensates:
N(uds) – strangelet;
N(uds)K(udd) – neutronized strangelet;
N(css) – second-generation matter;
N(css)K(uds) – carmlet-strangelet;
…
Dozens of possible types of dangerous matter;
…
If some of them would be stable, then they can ruin the ordinary matter and, as a result, – to explode the Earth.
You can argue that N or (N and K) must be quite big.
I’ll answer: “The energy of p-p or HI-HI collisions are sufficient in order to make N=1000 and even more”.
You can argue: Particles, made in collisions, have different energies and move in different directions.
I’ll answer: The further growth of alignment and correlation effects, mentioned above, can lead from continues quantitative change to sharp qualitative transition, i.e., to creation of microscopic droplets of dangerous condensate.