Parity violation on macroscopic scale

In summary: Any experiment that successfully detects parity violation is an example of leakage into the macroscopic world - the experimental apparatus is macroscopic and behaves differently when parity is violated.However, you are probably looking for something a bit more exciting than just a few needles reading different values... Like say a big lump of cobalt-60 (google for "Wu experiment parity") blasting gamma radiation and electrons in different directions? There's no reason why such a thing could not in principle be assembled, but the probability of it happening is so low that in practice it will never happen.Similar considerations apply to even the more prosaic examples of macroscopic properties emerging from what happens on the microscopic level. A macroscopic
  • #1
tzimie
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a question which is bugging me...

Yes, I know that parity is violated only by the Weak Interaction, which is very short range. So I would answer "no, there is no P violation on macroscopic scale"

However, many macroscopic properties are the results of what happens on the microscopic level. So can P violation somehow "leak" into the macroscopic world? Or, If you insist on the answer "No", is there a solid proof that macroscopic world is P symmetric?
 
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  • #2
tzimie said:
However, many macroscopic properties are the results of what happens on the microscopic level. So can P violation somehow "leak" into the macroscopic world? Or, If you insist on the answer "No", is there a solid proof that macroscopic world is P symmetric?

Any experiment that successfully detects parity violation is an example of leakage into the macroscopic world - the experimental apparatus is macroscopic and behaves differently when parity is violated.

However, you are probably looking for something a bit more exciting than just a few needles reading different values... Like say a big lump of cobalt-60 (google for "Wu experiment parity") blasting gamma radiation and electrons in different directions? There's no reason why such a thing could not in principle be assembled, but the probability of it happening is so low that in practice it will never happen.

Similar considerations apply to even the more prosaic examples of macroscopic properties emerging from what happens on the microscopic level. A macroscopic dropped brick will pretty reliably fall to to the ground - but in principle all the air molecules underneath it might just randomly happen to be moving up at the same time and then it would float. Generally any time that you want to make a connection between microscopic and macroscopic behavior you have to apply the methods of statistical mechanics.
 
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  • #3
Some theories to explain the fact that we only observe L-Aminoacids and D-sugars (homochirality) in living beings try to trace this back to the parity violating terms in the hamiltonian. I think that even some experiments in the Rosetta comet landing mission where dedicated to explore this.
See,
http://www.acadeuro.org/fileadmin/user_upload/publications/ER_Symmetry_supplement/Cline.pdf
 
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  • #4
Interesting, thank you
 

Related to Parity violation on macroscopic scale

1. What is parity violation on a macroscopic scale?

Parity violation on a macroscopic scale refers to the violation of the principle of parity symmetry in macroscopic systems. This principle states that the laws of physics should be the same for a system and its mirror image. However, in certain systems, this symmetry is broken, leading to differences in behavior between the original system and its mirror image.

2. How is parity violation measured on a macroscopic scale?

Parity violation on a macroscopic scale is typically measured through experiments that involve observing the behavior of a system and its mirror image. If the system exhibits different behavior than its mirror image, it is a sign of parity violation. Other methods include studying the effects of external fields on the system and measuring the polarization of particles involved in the system.

3. What are some examples of systems where parity violation has been observed on a macroscopic scale?

One example is in the weak interaction of subatomic particles, where parity violation was first observed. Another example is in the chiral molecules found in living organisms, where one form of the molecule is more abundant than its mirror image due to parity violation. Additionally, parity violation has been observed in certain physical phenomena like the flow of fluids and the behavior of magnetic domains.

4. What is the significance of parity violation on a macroscopic scale?

Parity violation on a macroscopic scale is significant because it challenges our understanding of the fundamental laws of physics. It also has practical applications, such as in the development of more accurate models and theories to explain physical phenomena. Additionally, studying parity violation can provide insight into the origins of the universe and the fundamental forces that govern it.

5. How does parity violation on a macroscopic scale impact our daily lives?

While the effects of parity violation may not be immediately apparent in our daily lives, it plays a crucial role in shaping the physical world around us. Understanding and studying parity violation can lead to advancements in technology and medicine, as well as a deeper understanding of the universe and our place in it.

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