Highest-weight category

In the mathematical field of representation theory, a highest-weight category is a k-linear category C (here k is a field) that

B\cap\left(\bigcup_\alpha A_\alpha\right)=\bigcup_\alpha\left(B\cap A_\alpha\right)
for all subobjects B and each family of subobjects {Aα} of each object X

and such that there is a locally finite poset Λ (whose elements are called the weights of C) that satisfies the following conditions:[2]

\dim_k\operatorname{Hom}_k(A(\lambda),A(\mu))
is finite, and the multiplicity[4]
[A(\lambda):S(\mu)]
is also finite.
0=F_0(\lambda)\subseteq F_1(\lambda)\subseteq\dots\subseteq I(\lambda)
such that
  1. F_1(\lambda)=A(\lambda)
  2. for n > 1, F_n(\lambda)/F_{n-1}(\lambda)\cong A(\mu) for some μ = μ(n) > λ
  3. for each μ in Λ, μ(n) = μ for only finitely many n
  4. \bigcup_iF_i(\lambda)=I(\lambda).

Examples

Notes

  1. In the sense that it admits arbitrary direct limits of subobjects and every object is a union of its subobjects of finite length.
  2. Cline & Scott 1988, §3
  3. Here, a composition factor of an object A in C is, by definition, a composition factor of one of its finite length subobjects.
  4. Here, if A is an object in C and S is a simple object in C, the multiplicity [A:S] is, by definition, the supremum of the multiplicity of S in all finite length subobjects of A.

References

See also

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