TitleRepresentation Theory II [electronic resource] : Proceedings of the Second International Conference on Representations of Algebras Ottawa, Carleton University, August 13 - 25, 1979 / edited by Vlastimil Dlab, Peter Gabriel
ImprintBerlin, Heidelberg : Springer Berlin Heidelberg, 1980
Connect tohttp://dx.doi.org/10.1007/BFb0088456
Descript XIV, 676 p. online resource

CONTENT

Uniserial functors -- Preprojective modules: An introduction and some applications -- Sections in Auslander-Reiten quivers -- Zykellose Algebren sind nicht zรผgellos -- Generalizations of the Bernstein-Gelfand-Ponomarev reflection functors -- On finite representation type and a theorem of Kulikov -- Homology representations of finite groups -- Algebraically rigid modules -- The preprojective algebra of a modulated graph -- Hereditary Artinian rings of finite representation type -- Tame and wild matrix problems -- Remarks on projective resolutions -- Vinbergโs characterization of dynkin diagrams using subadditive functions with application to DTr-periodic modules -- Trivial extension of artin algebras -- Model theory and representations of algebras -- Some remarks on representations of quivers and infinite root systems -- Symmetric algebras of finite representation type -- Some remarks on Loewy lengths of projective modules -- Reflection functors -- Algebras stably equivalent to l-hereditary -- Hereditary algebras that are not pure-hereditary -- Projective lattices over group orders as amalgamations of irreducible lattices -- Representation-finite selfinjective algebras of class An -- Representation theory of blocks of defect 1 -- A class of self-injective algebras of finite representation type -- Right pure semisimple hereditary rings -- Representations of trivial extensions of hereditary algebras -- Almost split sequences for TrD-periodic modules -- A class of self-injective algebras and their indecomposable modules -- Hereditary artinian rings of right local representation type


SUBJECT

  1. Mathematics
  2. Algebra
  3. Mathematics
  4. Algebra