A couple of questions about Higgs Boson

In summary: The Higgs field permeates the universe. The Higgs boson is an excitation of that field, which is what CERN thinks it's found. The Higgs field manifests its existence through the nonzero masses of the elementary particles, but the validation of the theory requires we must also produce the Higgs boson and measure its properties.
  • #1
davidoux2020
1
0
Hi all, I have a couple of noob questions regarding the Higgs Boson (HB) and it's recent "discovery"


1. if the HB is so heavy (I understood it is heavier than a proton) and permeates the universe, why is it so difficult to detect it or produce it ?

2. Why do we have to collide protons in order to "produce" a HB ? I understood it was flowing throught the universe, not part of existing matter ... so how can it be uncovered by breaking apart existing matter ?


Many thanks for your help,

David
 
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  • #2
if the HB is so heavy (I understood it is heavier than a proton) and permeates the universe, why is it so difficult to detect it or produce it ?
That's why. Because it's so heavy, it takes a high energy collision to produce it. It's difficult to detect because (a) it's very short-lived, and (b) the things it decays into can be easily produced in other ways, so seeing them is no guarantee they came from a Higgs.

I understood it was flowing throught the universe, not part of existing matter ... so how can it be uncovered by breaking apart existing matter ?
The Higgs field permeates the universe. The Higgs boson is an excitation of that field, which is what CERN thinks it's found. The Higgs field manifests its existence through the nonzero masses of the elementary particles, but the validation of the theory requires we must also produce the Higgs boson and measure its properties.
 
  • #3
davidoux2020 said:
1. if the HB is so heavy (I understood it is heavier than a proton) and permeates the universe, why is it so difficult to detect it or produce it ?
I'd just like to add to the Bill_K's answer, that generally the heavier the particle is, the faster it decays. It's not strictly linear dependence and there are some exceptions when particle is heavy but decays slowly (neutron) or doesn't decay at all (proton) because they have nothing (or almost nothing) to decay into. But you expect that heavy particle will decay faster, unless you find some reason to the contrary.
 
  • #4
If the Higgs field permeates all of space and gives mass to all particles...why doesn't it give mass to photons? What makes them 'immune' to the Higgs field?
 
  • #5
It gives mass to all particles it couples to. If you work out the electroweak symmetry breaking mechanism, one particle has to stay massless, as one U(1) symmetry has to remain.
Gluons are massless, too, by the way.
 
  • #6
Thanks for clearing that up ' its the field that fills space..' so many even quite scientific articles have said its the Higgs bosons that fill space, and that it creates an effect like moving through treacle etc - suely its only accelaration that is affected?
 
Last edited:

1. What is the Higgs Boson?

The Higgs Boson is a subatomic particle that is believed to give other particles their mass. It was first theorized in the 1960s by Peter Higgs and other physicists, and was finally confirmed to exist in 2012 through experiments at the Large Hadron Collider.

2. Why is the discovery of the Higgs Boson significant?

The discovery of the Higgs Boson is significant because it confirms the existence of the Higgs field, which is responsible for giving particles their mass. This is a crucial piece of the Standard Model of particle physics and helps us better understand the fundamental building blocks of our universe.

3. How was the Higgs Boson discovered?

The Higgs Boson was discovered through experiments at the Large Hadron Collider (LHC) in Geneva, Switzerland. Scientists collided protons at high energies and observed the decay products to look for signals of the Higgs Boson. This process involved analyzing massive amounts of data and required the collaboration of thousands of scientists from around the world.

4. What is the Higgs field and how does it give particles mass?

The Higgs field is a theoretical field that permeates all of space. Particles interact with this field and gain mass through their interaction with the Higgs Boson. The more a particle interacts with the field, the more mass it has. This is similar to how a person walking through water experiences more resistance and therefore has a harder time moving through it.

5. What further research is being done on the Higgs Boson?

Scientists are continuing to study the properties of the Higgs Boson and how it interacts with other particles. They are also trying to understand the role of the Higgs field in the early universe and how it may have shaped the formation of matter. Additionally, researchers are looking for new physics beyond the Standard Model that may be related to the Higgs Boson.

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