Difference between revisions of "Antiquark"
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*Combine with other [[antiquark]]s to form [[antibaryon]]s or with [[quark]]s to form [[meson]]s. | *Combine with other [[antiquark]]s to form [[antibaryon]]s or with [[quark]]s to form [[meson]]s. | ||
*[[Quark]]s and [[antiquark]]s are fundamental constituents of [[matter]]. | *[[Quark]]s and [[antiquark]]s are fundamental constituents of [[matter]]. | ||
+ | *[[Antiquark]]s are produced in high-energy collisions such as those in [[Particle Accelerator|particle accelerators]]. | ||
+ | *[[Antiquark]]s participate in strong interactions mediated by [[gluon]]s. | ||
+ | *[[Antiquark]]s and [[quark]]s are bound together by the strong force in [[hadron]]s. | ||
+ | The study of [[antiquark]]s provides insight into the behavior and properties of fundamental particles. | ||
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Revision as of 19:26, 19 May 2024
Key Stage 5
Meaning
An antiquark is the antiparticle of a quark.
About Antiquarks
- Antiquarks have opposite electric charge and "colour charge" to quarks.
- Combine with other antiquarks to form antibaryons or with quarks to form mesons.
- Quarks and antiquarks are fundamental constituents of matter.
- Antiquarks are produced in high-energy collisions such as those in particle accelerators.
- Antiquarks participate in strong interactions mediated by gluons.
- Antiquarks and quarks are bound together by the strong force in hadrons.
The study of antiquarks provides insight into the behavior and properties of fundamental particles.
Antiquark | Symbol | Charge/e | Strangeness | Baryon Number | Lepton Number |
\(\bar{u}\) | \(Q=-\frac{2}{3}\) | \(S=0\) | \(B=-\frac{1}{3}\) | \(L=0\) | |
\(\bar{d}\) | \(Q=+\frac{1}{3}\) | \(S=0\) | \(B=-\frac{1}{3}\) | \(L=0\) | |
\(\bar{s}\) | \(Q=+\frac{1}{3}\) | \(S=+1\) | \(B=-\frac{1}{3}\) | \(L=0\) |