Higgs field: Difference between revisions

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==The Main Idea==
==The Main Idea==


<indent>Explaining, in a comprehensible way, what the Higgs Field and Boson are and what they  mean for us as a society. The influences they have on modern day physics, and what this finding helps us explain that was previously unexplainable.
Explaining, in a comprehensible way, what the Higgs Field and Boson are and what they  mean for us as a society. The influences they have on modern day physics, and what this finding helps us explain that was previously unexplainable.




===A Mathematical Model===
===A Mathematical Model===
The mathematical equations that gave us the idea that something like the Higgs Boson was necessary are quite facile. The need for this particle arose due to the need for a way for particles to acquire the mass that we know they have today through experimentation and observation.  Simplistically, if an electron or some other elementary particle, lacked mass, this means that it would travel at the speed of light.  This is modeled through the equation :  
        The mathematical equations that gave us the idea that something like the Higgs Boson was necessary are quite facile. The need for this particle arose due to the need for a way for particles to acquire the mass that we know they have today through experimentation and observation.  Simplistically, if an electron or some other elementary particle, lacked mass, this means that it would travel at the speed of light.  This is modeled through the equation :  
m=m0÷√((v)2/(c)2)
m=m0÷√((v)2/(c)2)


If these particles were to move at the speed of the light, they would not bond or interact in the ways that we understand them to. This gave rise for the need for another particle or field to exist that would grant these particles mass, thus allowing them to interact in the conventional way. This field interacts more with heavier particles and less with lighter particles.
        If these particles were to move at the speed of the light, they would not bond or interact in the ways that we understand them to. This gave rise for the need for another particle or field to exist that would grant these particles mass, thus allowing them to interact in the conventional way. This field interacts more with heavier particles and less with lighter particles.
Another reason scientists knew the Higgs Boson or  
        Another reason scientists knew the Higgs Boson or something like it must exist was because of broken symmetry. Spontaneously Broken symmetry is symmetry that is preserved by physical laws but one that is broken in the actual world. An easy way to visualize this, is a circular dinner table with people seated where there are glasses inbetween each person. The symmetry is preserved here because a person can either choose to take the glass on his left or right and either path is exactly the same. However this symmetry is broken spontaneously as soon as one person is driven by thirst to choose a glass. Once a glass is chosen by one person, everyone else must follow suit and choose their glass on the same side, thus removing the symmetry of allowing both paths to be equal.
The weak force has an especially short range, which means that the bosons that communicate this force must consequentially have mass.  However high energy predictions for bosons that have mass, results in an interaction rate greater than 100%, which is clearly not feasable. The only model that allows reasonable predictions with massive bosons, is the Higgs mechanism. Because this mechanism allows the weak force symmetry to break spontaneously, also allowing for predictions with massive bosons.


===A Computational Model===
===What is the Higgs Field?===
        A field by definition in quantum physics is an object that can produce particles in space. With each field producing its own unique particle. These particles, Higgs particles, are so massive that they are not found in ordinary matter, the only way to observe these is with high energy collisions. The Higgs field is what gives particles their mass. When a particle interacts with this field, it gains its mass. More massive particles interact more often with the field, while less massive particles interact less with the field. This field prevents the weak force from exerting itself over large distances, an in a way "intercepts" this force at a distance of trillionth of a centimeter. By intercepting, the Higgs Field allows particles to act like we predict them to under all circumstances because particles move freely at small distances but are hindered over larger distances.


How do we visualize or predict using this topic. Consider embedding some vpython code here [https://trinket.io/glowscript/31d0f9ad9e Teach hands-on with GlowScript]
==Examples==
Be sure to show all steps in your solution and include diagrams whenever possible
===Simple===
===Middling===
===Difficult===
==Connectedness==
#How is this topic connected to something that you are interested in?
#How is it connected to your major?
#Is there an interesting industrial application?


==History==
==History==
 
      On July 4th, 2012, it was announced that a new particle,related to the Higgs Mechanism, had been discovered by the Large Hadron Collider near Geneva. Spokespeople from CMS and ATLAS (the two major LHC experiments) announced that a particle related to the Higgs Mechanism had been found. This discovery was especially impressive, because no one could guarantee that such a particle was to exist. In contrast to most discoveries in physics, scientists can usually guarantee that something exists before it is discovered.
Put this idea in historical context. Give the reader the Who, What, When, Where, and Why.
        There is much we still don't understand about the Higgs Mechanism, but with further experimentation at higher energy levels, the future may hold discoveries of equal or greater magnitude than this one very soon.  
 
== Images ==
== See also ==
 
Are there related topics or categories in this wiki resource for the curious reader to explore?  How does this topic fit into that context?


===Further reading===
===Further reading===
 
https://www.youtube.com/watch?v=joTKd5j3mzk  - The Higgs Field, Explained
Books, Articles or other print media on this topic


===External links===
===External links===
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==References==
==References==


This section contains the the references you used while writing this page
"Higgs Discovery: The Power of Empty Space"-Lisa Randall


[[Category:Which Category did you place this in?]]
[[Category:Which Category did you place this in?]]

Revision as of 18:12, 5 December 2015


The Higgs Field and mechanism is one of the most influential discoveries of the 21st century. This theory allows physicists to fill many of the gaps in pre-existing theories that we knew to be true, but couldn't explain certain inconsistencies.

The Main Idea

Explaining, in a comprehensible way, what the Higgs Field and Boson are and what they mean for us as a society. The influences they have on modern day physics, and what this finding helps us explain that was previously unexplainable.


A Mathematical Model

       The mathematical equations that gave us the idea that something like the Higgs Boson was necessary are quite facile. The need for this particle arose due to the need for a way for particles to acquire the mass that we know they have today through experimentation and observation.  Simplistically, if an electron or some other elementary particle, lacked mass, this means that it would travel at the speed of light.  This is modeled through the equation : 

m=m0÷√((v)2/(c)2)

       If these particles were to move at the speed of the light, they would not bond or interact in the ways that we understand them to. This gave rise for the need for another particle or field to exist that would grant these particles mass, thus allowing them to interact in the conventional way. This field interacts more with heavier particles and less with lighter particles.
       Another reason scientists knew the Higgs Boson or something like it must exist was because of broken symmetry. Spontaneously Broken symmetry is symmetry that is preserved by physical laws but one that is broken in the actual world. An easy way to visualize this, is a circular dinner table with people seated where there are glasses inbetween each person. The symmetry is preserved here because a person can either choose to take the glass on his left or right and either path is exactly the same. However this symmetry is broken spontaneously as soon as one person is driven by thirst to choose a glass. Once a glass is chosen by one person, everyone else must follow suit and choose their glass on the same side, thus removing the symmetry of allowing both paths to be equal. 

The weak force has an especially short range, which means that the bosons that communicate this force must consequentially have mass. However high energy predictions for bosons that have mass, results in an interaction rate greater than 100%, which is clearly not feasable. The only model that allows reasonable predictions with massive bosons, is the Higgs mechanism. Because this mechanism allows the weak force symmetry to break spontaneously, also allowing for predictions with massive bosons.

What is the Higgs Field?

        A field by definition in quantum physics is an object that can produce particles in space. With each field producing its own unique particle. These particles, Higgs particles, are so massive that they are not found in ordinary matter, the only way to observe these is with high energy collisions. The Higgs field is what gives particles their mass. When a particle interacts with this field, it gains its mass. More massive particles interact more often with the field, while less massive particles interact less with the field. This field prevents the weak force from exerting itself over large distances, an in a way "intercepts" this force at a distance of trillionth of a centimeter. By intercepting, the Higgs Field allows particles to act like we predict them to under all circumstances because particles move freely at small distances but are hindered over larger distances. 


History

      On July 4th, 2012, it was announced that a new particle,related to the Higgs Mechanism, had been discovered by the Large Hadron Collider near Geneva. Spokespeople from CMS and ATLAS (the two major LHC experiments) announced that a particle related to the Higgs Mechanism had been found. This discovery was especially impressive, because no one could guarantee that such a particle was to exist. In contrast to most discoveries in physics, scientists can usually guarantee that something exists before it is discovered. 
       There is much we still don't understand about the Higgs Mechanism, but with further experimentation at higher energy levels, the future may hold discoveries of equal or greater magnitude than this one very soon. 

Images

Further reading

https://www.youtube.com/watch?v=joTKd5j3mzk - The Higgs Field, Explained

External links

[1]


References

"Higgs Discovery: The Power of Empty Space"-Lisa Randall