CERN Scientists Say the Universe Shouldn’t Exist
by Paul Seaburn October 25, 2017 (mysteriousuniverse.org)
- Researchers at CERN in Switzerland recently made the most precise measurements ever of the magnetic force of protons and anti-protons and found them to be exactly the same.
- Since protons and anti-protons cancel each other out, the equal amounts of matter and antimatter should have annihilated each other and the “Big Bang” should have left nothing behind.
- [Editor’s Note] Is mainstream science beginning to realize that they they may be relying upon an incorrect model of physics and the origin of the universe, and that our very scientific foundation needs to be revised?
“All of our observations find a complete symmetry between matter and antimatter, which is why the universe should not actually exist.”
Are you reading this? Good. That means the world’s greatest scientists using the world’s greatest scientific instruments are wrong. Or are they?
Researchers at CERN in Switzerland recently made the most precise measurements ever of the magnetic force of protons and antiprotons and found them to be exactly the same … except for an opposite sign. This means the idea that scientists have danced around for centuries is still making them waltz – the Big Bang created equal amounts of matter and antimatter which should have annihilated each other and left nothing behind … including the universe and us. So, why are we still here?
A better question might be: “How did the CERN Physicists manage to experiment with the magnetism of matter and antimatter without annihilating the universe for real?” In a word … slowly. In 2014, they were able to measure the magnetic moment – how much a proton resists magnetic force – by trapping an individual proton in a magnetic field, then spinning it with another magnetic field.
That part was easy – at least protons don’t annihilate when they come in contact with any matter. Antiprotons are – no pun intended – another matter. After creating antiprotons in 2015, they had to create an antimatter chamber to store them in. They started with a Penning trap – a cylindrical container that traps charged particles between a magnetic field and a quadrupole electric field (apologies to physicists for this overly simple explanation). These Penning traps are imperfect and the antimatter can leak out (not a good thing – if you’ve been paying attention), so the CERN physicist used two and kept the antimatter extremely cold. This allowed them to store the antimatter for 405 days, more than enough time to do the magnetic moment measurements.
And the answer is … −2.7928473441 μN. (μN is a nuclear magneton). Not only was this exactly the same – except for the minus sign – as the magnetic moment of a proton, it’s accurate to nine digits or nearly perfect. Would you expect any less from CERN?
Christian Smorra, the physicist at CERN’s Baryon–Antibaryon Symmetry Experiment (BASE) collaboration who observed that the universe should not actually exist, was excited at the results, published this week in Nature, but still puzzled.
“An asymmetry must exist here somewhere but we simply do not understand where the difference is.”
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