Difference between revisions of "Antibaryon"
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*[[Antibaryon]]s have opposite charge and quantum numbers to their corresponding [[baryon]]s. | *[[Antibaryon]]s have opposite charge and quantum numbers to their corresponding [[baryon]]s. | ||
*Studied in high-energy physics experiments to understand [[matter]]-[[antimatter]] symmetry. | *Studied in high-energy physics experiments to understand [[matter]]-[[antimatter]] symmetry. | ||
| + | *[[Antibaryon]]s are created in high-energy particle collisions and cosmic rays. | ||
| + | *[[Antibaryon]]s [[Annihilation|annihilate]] with [[baryons]] producing high-energy [[Gamma-ray|gamma rays]]. | ||
| + | The study of [[antibaryon]]s helps in understanding the fundamental forces in nature. | ||
: '''Antibaryons''' are affected by the: | : '''Antibaryons''' are affected by the: | ||
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| style="height:20px; width:100px; text-align:center;"| | | style="height:20px; width:100px; text-align:center;"| | ||
| − | [[ | + | [[Antiproton]] |
| style="height:20px; width:100px; text-align:center;"|<math>\bar{u}\bar{u}\bar{d}</math> | | style="height:20px; width:100px; text-align:center;"|<math>\bar{u}\bar{u}\bar{d}</math> | ||
| style="height:20px; width:100px; text-align:center;"|<math>Q=-1</math> | | style="height:20px; width:100px; text-align:center;"|<math>Q=-1</math> | ||
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|- | |- | ||
| style="height:20px; width:100px; text-align:center;"| | | style="height:20px; width:100px; text-align:center;"| | ||
| − | [[ | + | [[Antineutron]] |
| style="height:20px; width:100px; text-align:center;"|<math>\bar{u}\bar{d}\bar{d}</math> | | style="height:20px; width:100px; text-align:center;"|<math>\bar{u}\bar{d}\bar{d}</math> | ||
| style="height:20px; width:100px; text-align:center;"|<math>Q=0</math> | | style="height:20px; width:100px; text-align:center;"|<math>Q=0</math> | ||
Latest revision as of 19:13, 19 May 2024
Key Stage 5
Meaning
An antibaryon is a hadron consisting of three antiquarks.
About Antibaryons
- The antiparticle counterpart to baryons like protons and neutrons.
- Antibaryons have opposite charge and quantum numbers to their corresponding baryons.
- Studied in high-energy physics experiments to understand matter-antimatter symmetry.
- Antibaryons are created in high-energy particle collisions and cosmic rays.
- Antibaryons annihilate with baryons producing high-energy gamma rays.
The study of antibaryons helps in understanding the fundamental forces in nature.
- Antibaryons are affected by the:
| Antibaryon | Antiquark-composition | Charge/e | Strangeness | Baryon Number | Lepton Number |
| \(\bar{u}\bar{u}\bar{d}\) | \(Q=-1\) | \(S=0\) | \(B=-1\) | \(L=0\) | |
| \(\bar{u}\bar{d}\bar{d}\) | \(Q=0\) | \(S=0\) | \(B=-1\) | \(L=0\) |
Examples
- The antiproton (composed of two anti-up quarks and one anti-down quark) is an antibaryon.
- Antibaryons are produced in particle colliders.