joeknows123 Posted September 9, 2015 Posted September 9, 2015 Just a thought that majorana feemions are so hard to find because they need to exist at a distance from other forces and form from the shifting atomic mass of novas and black holes at points where there is no mass, only the meeting of a positive and negative area of directional cumulative atomic mass? Fermions, sorry typo.
Mordred Posted September 10, 2015 Posted September 10, 2015 How fermions and majoranna fermions couple to the Higgs field differ. Fermions couple to the Higgs field via the standard Dirac mass equations. While majoranna mass is non Dirac. The two relations is a bit complex, and involves conservation of charge. I won't try to post the different formulas, however I will provide a good article on the topic. https://www.google.ca/url?sa=t&source=web&cd=6&rct=j&q=majorana%20particle%20coupling%20to%20Higgs%20field&ved=0CDIQFjAFahUKEwjRsIrs1evHAhVIK4gKHbo7DpY&url=http%3A%2F%2Fwww.researchgate.net%2Fpublictopics.PublicPostFileLoader.html%3Fid%3D555b18df6307d95c0a8b4649%26key%3Dbcf63c2e-b37c-4877-9cb5-8b2867d50492&usg=AFQjCNH9M7I1QIcCpiYM1W56G7fCyT8LtQ&sig2=vVvj1dwqxxgDQUvRzTwmHw One from arxiv. http://arxiv.org/pdf/0903.0899 there's still debate on the seesaw mechanism and how it applies between majoranna mass and Dirac mass (I would simply use the term invariant mass)
swansont Posted September 10, 2015 Posted September 10, 2015 ! Moderator Note Discussion about decoupling from the Higgs has been split http://www.scienceforums.net/topic/91103-decoupling-from-the-higgs-field/
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