Higgs bosom is this where energy becomes mass?

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Discussion Overview

The discussion revolves around the relationship between the Higgs boson, the Higgs field, and the concept of mass. Participants explore whether the Higgs boson acquires mass through its interaction with the Higgs field and the implications of this process for understanding energy and mass conversion.

Discussion Character

  • Exploratory, Technical explanation, Debate/contested

Main Points Raised

  • One participant suggests that the Higgs boson has no mass before interacting with the Higgs field, questioning if this interaction is where energy becomes mass.
  • Another participant humorously points out a typo in the original post, indicating a potential misunderstanding of terminology.
  • A different participant clarifies that the mass of the Higgs boson arises from symmetry breaking in the Higgs field, noting that fermions acquire mass through their interaction with the field, but not in the same manner as gauge bosons.
  • One participant asserts that the Higgs boson is equivalent to the Higgs field, implying that the original question lacks clarity.
  • Another participant provides a concise definition of the Higgs boson as the quantum of the Higgs field and explains that the non-zero vacuum expectation value of the Higgs field is crucial for giving mass to elementary particles.

Areas of Agreement / Disagreement

Participants express differing views on the relationship between the Higgs boson and the Higgs field, with some asserting that the boson and field are the same, while others emphasize the process of symmetry breaking and its implications for mass. The discussion remains unresolved with multiple competing perspectives.

Contextual Notes

Participants reference complex concepts such as symmetry breaking and vacuum expectation values, which may require further clarification or context for complete understanding. The discussion does not resolve the nuances of these concepts.

Charles Brown
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The Higgs bosons has no mass before it travels through the Higgs field. So is this the point where energy becomes mass?
 
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This - the OP's subject title - has the potential to be the greatest typo ever, even exceeding "space mites" for "space time".

http://dictionary.reference.com/browse/bosom

edit: Better hope there isn't a lady named Higgs at CERN or she might be giving you a good kicking :-)
 
rorix: thanks for pointing out that typo...I must be waaay too focused on physics since I never even noticed it!

Charles:
I don't think that's quite the idea...My understanding is that the higgs boson mass arises as a result of symmetry breaking...simultaneously with the field...I believe fermions theoretically acquire mass as you describe.

In the standard model, at temperatures high enough so that electroweak symmetry is unbroken, all elementary particles are massless. At a critical temperature, the symmetry is spontaneously broken, and the W and Z bosons acquire masses...Fermions, such as the leptons and quarks in the Standard Model, can also acquire mass as a result of their interaction with the Higgs field, but not in the same way as the gauge bosons...after symmetry breaking, these three of the four degrees of freedom in the Higgs field mix with the W and Z bosons, while the one remaining degree of freedom becomes the Higgs boson – a new scalar particle
QUOTE]
http://en.wikipedia.org/wiki/Higgs_mechanism


Note that the above description may neither refute your explanation nor validate my own.
 
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Charles Brown said:
The Higgs bosons has no mass before it travels through the Higgs field. So is this the point where energy becomes mass?

The Higgs boson is the same thing as the higgs field. Your question makes no sense at all.
 
Here is a simple one line answer:

The Higgs boson particle is the quantum of the theoretical Higgs field.

http://en.wikipedia.org/wiki/Higgs_boson

If your question is "Why does the boson exhibit mass" a brief answer is
"In empty space, the Higgs field has an amplitude different from zero; i.e. a non-zero vacuum expectation value. The existence of this non-zero vacuum expectation plays a fundamental role; it gives mass to every elementary particle that couples to the Higgs field, including the Higgs boson itself..." same link
 
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