Which Experiments Proved CP Violation in Particle Decays?

In summary, the conversation discusses the topic of CP violation and its evidence in various experiments. Specifically, the Fitch/Cronin experiment in 1964 showed CP violation through the decay of K0 into two pions. The NA31/NA48 and KTeV experiments at CERN and Fermilab, respectively, studied different decays and were considered "direct CP violation." The BaBar and Belle experiments focused on B meson decays, with some being significant in terms of CP violation. The conversation also touches on the difficulty of observing certain decay processes.
  • #1
ryanwilk
57
0
Hi, I'm currently producing an undergraduate poster on CP violation and I have a few questions:

- Was K0 -> [tex]\pi[/tex]++[tex]\pi[/tex]- the decay which proved CP violation in the 1964 Fitch/Cronin experiment, or was it oscillations between K0 and [tex]\overline{K}[/tex]0, or both? (Answered)

- How were the decays in CERN's NA31/NA48 and Fermilab's KTeV experiments different and what makes them "direct CP violation"?

- Which B meson decays were studied at BaBar and Belle, and in particular, which ones were significant in terms of CP violation?

Any help would be appreciated.
Thanks!
 
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  • #2
For C&F it was just the observation of K_long (the long lived neutral K)--> 2 pions that violated CP.
 
  • #3
Ah ok, just to check, were they [tex]\pi[/tex]+[tex]\pi[/tex]- or [tex]\pi[/tex]0[tex]\pi[/tex]0?
Looking around the internet, the only articles I can find just say "two pions" or "2[tex]\pi[/tex]"...
 
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  • #4
C&F saw only pi+ and pi-.
The two pi0 were harder to see and only were seen several years later.
 
  • #5
Oh ok, thanks! :smile:
 

1. What is Cp Violation?

Cp violation is a phenomenon in particle physics where there is a difference in the behavior of particles and their antiparticles. It violates the fundamental principle of charge-parity (Cp) symmetry, which states that the laws of physics should be the same for particles and their antiparticles.

2. How is Cp Violation measured in experiments?

Cp violation is measured by studying the decay patterns of particles and their antiparticles. By comparing the rates and patterns of decay, scientists can determine if there is a difference between the two, indicating Cp violation.

3. Why is Cp Violation important in understanding the universe?

Cp violation plays a crucial role in understanding the asymmetry between matter and antimatter in the universe. The Big Bang theory suggests that equal amounts of matter and antimatter should have been created in the early universe, but our current universe is mostly made up of matter. Cp violation provides insight into this asymmetry and helps explain why matter dominates in our universe.

4. What are some current experiments studying Cp Violation?

Some current experiments include the Belle II experiment in Japan and the LHCb experiment at CERN. These experiments are studying the decay of B mesons and looking for differences in the behavior of particles and antiparticles.

5. What are the potential implications of discovering more about Cp Violation?

The discovery of more about Cp violation could lead to a better understanding of the fundamental laws of physics and the early universe. It could also have practical applications in technology, such as improving our understanding of particle accelerators and developing new technologies for medical imaging and cancer treatment.

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