WW fusion in Higgs production

In summary, WW fusion in Higgs production is a process in which two W bosons fuse together to produce a Higgs boson. It is important because it allows for the production of Higgs bosons at a higher rate, facilitating their study. This fusion occurs through the strong interaction between the W and Higgs bosons. Studying WW fusion in Higgs production has implications for understanding the properties of the Higgs boson and the fundamental forces in our universe. Current research efforts are focused on studying this process in more detail at the LHC and using theoretical models and simulations to gain a better understanding of its implications.
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[tex]e^- + e^+\rightarrow\overline{\nu}_e + \nu_e + H[/tex]
Can it possible for this process happen in lab frame? i.e. the positron is accelerated to collide with the electron target.
 
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  • #2
if the process is allowed in one frame, it's allowed in ANY frame (that's Einstein's principle of relativity!). You can have this with the e+e- making a virtual Z, which then Higgsstrahlung's,with the Z decaying to neutrinos. It would be nearly impossible to see, though...
 

What is WW fusion in Higgs production?

WW fusion in Higgs production refers to a specific process in which two W bosons fuse together to produce a Higgs boson. This process is important because it allows for the production of Higgs bosons at a higher rate, making it easier to study and understand this important particle.

Why is WW fusion important in Higgs production?

WW fusion is important in Higgs production because it is one of the main ways in which Higgs bosons are produced at particle colliders like the Large Hadron Collider (LHC). This process produces Higgs bosons at a higher rate compared to other production mechanisms, making it easier for scientists to study the properties of the Higgs boson.

How does WW fusion occur in Higgs production?

In WW fusion, two W bosons collide and fuse together, resulting in the production of a Higgs boson. This process is governed by the strong interaction between the W bosons and the Higgs boson, which allows for their fusion to occur.

What are the implications of studying WW fusion in Higgs production?

Studying WW fusion in Higgs production allows scientists to gain a better understanding of the properties of the Higgs boson, which is crucial for understanding the fundamental forces and particles in our universe. It also provides insights into the nature of the Higgs field and its role in the mechanism of mass generation.

What are some current research efforts focused on WW fusion in Higgs production?

Scientists are currently conducting research at the LHC to study WW fusion in Higgs production in more detail. They are also using theoretical models and simulations to better understand this process and its implications for our understanding of the Higgs boson and the fundamental forces in nature.

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