SU(3)

E179969

SU(3) is the special unitary group of degree three, a Lie group fundamental to the mathematical description of the strong interaction and the classification of hadrons in particle physics.

All labels observed (3)

Label Occurrences
SU(3) canonical 3
SU(3) Lie algebra 1
SU(3) flavor symmetry 1

How this entity was disambiguated

Statements (50)

Predicate Object
instanceOf Lie group
compact Lie group
connected Lie group
matrix Lie group
semisimple Lie group
simple Lie group
special unitary group
actsOn color charge of quarks
hasAdjointRepresentation 8
hasAdjointRepresentationDimension 8
hasCartanSubalgebraDimension 2
hasCenterIsomorphicTo ℤ3
hasConjugateFundamentalRepresentation
hasDegree 3
hasDimension 8
hasDynkinDiagram two nodes connected by a single edge
hasFlavorSymmetryRealization SU(3) flavor symmetry of u, d, s quarks
hasFundamentalGroup trivial group
hasFundamentalRepresentation 3
hasFundamentalRepresentationDimension 3
hasIrreducibleRepresentation 10
15
3

6
8
hasLieAlgebra su(3)
hasLieAlgebraDimension 8
hasMaximalCompactSubgroupOf special linear group SL(n,C)
surface form: SL(3,ℂ)
hasMaximalTorusDimension 2
hasNumberOfGenerators 8
hasPhysicalSymmetryRole approximate flavor symmetry of light quarks
color SU(3) gauge symmetry
hasRank 2
hasRootSystemType A2
hasStandardGenerators Gell-Mann matrices
hasType compact real form of SL(3,ℂ)
isCompact true
isDefinedAs group of 3×3 unitary matrices with determinant 1
isGaugeGroupOf quantum chromodynamics
strong interaction
isNonAbelian true
isPartOf SU(3)×SU(2)×U(1) Standard Model gauge group
isSimpleAsLieGroup true
isSimplyConnected true
isSubgroupOf special linear group SL(n,C)
surface form: SL(3,ℂ)

U(3)
isUsedIn Eightfold Way classification
surface form: Eightfold Way classification of hadrons

classification of baryon multiplets
classification of meson multiplets

How these facts were elicited

Referenced by (5)

Full triples — surface form annotated when it differs from this entity's canonical label.

Gell-Mann matrices usedIn SU(3)
this entity surface form: SU(3) Lie algebra
Gell-Mann–Okubo mass formula basedOn SU(3)
this entity surface form: SU(3) flavor symmetry