Is it theoretically possible to create a Higgs field disruptor?
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It's a nice bit of sci-fi technobabble; but no. Even if you could create a “Higgs Bubble” where it no longer had a role in giving elementary particles mass, this wouldn't negate inertia, since 99% of an atom's mass comes from the Strong Force binding energy in the nucleus.
What it would do would be to extend the range of the Weak Force so that it would no longer be confined to the nucleus. I don't know the dynamics of Electroweak Theory well enough to explain what effect that would have; but I suspect it would be rather disruptive. Neutrino flux would almost certainly be a big deal within the bubble: neutrinos almost never interact with anything because they're almost never within the Weak Force's range of anything else, and they only interact by means of the Weak Force. With its range extended throughout the bubble, neutrino paths would be altered much more than they currently are, and such things as beta decay would probably be more common.
This hypothetical Higgs Bubble might also allow the Higgs Field to be used for FTL communications — but only within the bubble.
What it would do would be to extend the range of the Weak Force so that it would no longer be confined to the nucleus. I don't know the dynamics of Electroweak Theory well enough to explain what effect that would have; but I suspect it would be rather disruptive. Neutrino flux would almost certainly be a big deal within the bubble: neutrinos almost never interact with anything because they're almost never within the Weak Force's range of anything else, and they only interact by means of the Weak Force. With its range extended throughout the bubble, neutrino paths would be altered much more than they currently are, and such things as beta decay would probably be more common.
This hypothetical Higgs Bubble might also allow the Higgs Field to be used for FTL communications — but only within the bubble.
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Hey dear here is the answer
The Higgs boson does not technically give other particles mass. More precisely, the particle is a quantized manifestation of a field (the Higgs field) that generates mass through its interaction with other particles. ... Quantum fields are similar to more familiar fields, like electric and magnetic fields.
Hope its help you
The Higgs boson does not technically give other particles mass. More precisely, the particle is a quantized manifestation of a field (the Higgs field) that generates mass through its interaction with other particles. ... Quantum fields are similar to more familiar fields, like electric and magnetic fields.
Hope its help you
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