Beta decay and the down quark.

In summary, beta decay is a process where a down quark decays into an up quark by emitting a W- boson, which then becomes an electron and an electron antineutrino. This only occurs in specific circumstances and does not happen to all down quarks. While this may seem to contradict the definition of a fundamental particle, the Standard Model still considers down quarks as such. There is no evidence of a single down quark in a proton decaying in this way, and it is not possible according to the Standard Model. Other theories predict proton decay, but not through this mechanism.
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If a down quark decays into an up quark in beta decay, why is it considered a fundamental particle?
I was learning about beta decay, and how a down quark decays into an up quark by emitting a W- boson which then becomes an electron and an electron antineutrino. I have two main questions - Firstly, how can the down quark be considered a fundamental particle, when it can break down to produce something else? Secondly, does it ever occur that the single down quark in the proton decays in the same way, and if it happens, what forms?
 
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Essentially, the different quarks are different forms of the same particle, distinguished by their quantum numbers.

Just like electrons in different excitation levels. An excited electron decays into an electron in the ground state and a photon, although it is not considered as being composed of these.
 
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JackDixon said:
a down quark decays into an up quark by emitting a W- boson which then becomes an electron and an electron antineutrino

Note that a down quark only does this if it's part of a neutron or a nucleus that undergoes beta decay. If all down quarks did this regardless of their state, there would be no down quarks left in the universe, which would mean matter as we know it wouldn't exist either.

JackDixon said:
how can the down quark be considered a fundamental particle, when it can break down to produce something else?

Because that's not the standard definition of "a fundamental particle". The standard definition of a fundamental particle at present is a particle that has a fundamental field in the Standard Model of particle physics. That includes down quarks.

JackDixon said:
does it ever occur that the single down quark in the proton decays in the same way

No such decay has ever been observed. According to the Standard Model, such a decay cannot occur because there is no resulting bound hadron state that it could lead to. (Such a state would need to be a particle with charge +2 and a mass lighter than the proton, and no such particle exists.)

Various "beyond the standard model" theories do predict proton decay, but not by this mechanism.
 
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1. What is beta decay?

Beta decay is a type of radioactive decay in which a nucleus emits a beta particle, which can be either an electron or a positron, and transforms into a different element.

2. What is the role of the down quark in beta decay?

The down quark is one of the fundamental particles that make up protons and neutrons. In beta decay, the down quark can transform into an up quark, resulting in the emission of a beta particle.

3. How does beta decay affect the stability of an atom?

Beta decay can change the number of protons and neutrons in an atom, which can affect its stability. If the number of protons is increased, the atom may become more unstable and undergo further decay.

4. Can beta decay be used for any practical applications?

Yes, beta decay is used in many practical applications such as nuclear power plants, medical imaging, and carbon dating. It is also used in particle accelerators to produce high-energy particles for research purposes.

5. How is beta decay different from other types of radioactive decay?

Beta decay differs from other types of radioactive decay, such as alpha decay and gamma decay, in that it involves the emission of a beta particle rather than an alpha particle or a gamma ray. Additionally, beta decay can result in a change in the element of the atom, while other types of decay do not.

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