суббота, 28 июня 2014 г.

NEW PHYSICS

http://www.amazon.com/Logical-foundation-fundamental-theoretical-physics/dp/365945088X

http://www.vixra.org/pdf/1111.0051v6.pdf

"Large Hadron Collider (LHC) worked since 10 September 2008 till 14 February  2013. Tevatron  worked since 1 December 1970, till 30 September 2011. Enormous resources were spent, but any essentially new results wasn't received. Neither superpartners,  nor additional dimensions, neither gravitons, nor black holes. neither dark matter, nor dark energy  etc., etc. weren't found. As for the Higgs, the assertion that the boson found in the 125 - 126 GeV, is this particle, is highly doubtful --

The Higgs field permeates the vacuum of space, which means the mass of the boson and the stability of the vacuum are closely intertwined. Theory predicted that if the Higgs boson is heavier than about 129 GeV, the universe should be on safe footing. The much celebrated particle has a mass of about 126 GeV - light enough to raise fears of instability (
http://www.sciencetimes.com/articles/1164/20141108/could-large-hadron-collider-discovery-be-something-else-researchers-look-to-techni-higgs-particles.htm
http://www.csmonitor.com/Science/2014/0624/Why-the-universe-isn-t-supposed-to-exist-video
http://www.popularmechanics.com/technology/engineering/extreme-machines/what-stephen-hawking-really-said-about-destroying-the-universe-17192502
). Higgs boson could have destroyed the cosmos shortly after it was born, causing the universe to collapse just after the Big Bang. The experiments that detected the Higgs boson revealed it had a mass of 125 billion electron-volts, or more than 130 times the mass of the proton. However, this discovery led to a mystery — at that mass, the Higgs boson should have destroyed the universe just after the Big Bang. This is because Higgs particles attract each other at high energies. For this to happen, the energies must be extraordinarily high, "at least a million times higher than the LHC can reach,

Right after the Big Bang, however, there was easily enough energy to make Higgs bosons attract each other. This could have led the early universe to contract instead of expand, snuffing it out shortly after its birth.
The Standard Model of particle physics, which scientists use to explain elementary particles and their interactions, has so far not provided an answer to why the universe did not collapse following the Big Bang,

All well-known elementary bosons (photons, W and Z bosons, gluons) are gauge. Apparently, the found by LHC 125-126 particle represents some hadron multiplet.


That is within last several decades many theoretical physicists investigated what isn't present in the Nature. It is the Superstrings Theory, the Higgs theory, the Dark Energy and the Dark Matter hypotheses, etc.

On the other hand already in 2006 - 2007 the logic analysis of these subjects described in
http://www.amazon.com/s/ref=nb_sb_noss?url=search-alias%3Dstripbooks&field-keywords=Quznetsov
has shown that all physical events are interpreted by well-known particles (leptons, quarks, and gauge bosons)."



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