Coşkun, Olcay2016-01-082016-01-082008http://hdl.handle.net/11693/14716Ankara : The Department of Mathematics and the Institute of Engineering and Science of Bilkent University, 2008.Thesis (Ph.D.) -- Bilkent University, 2008.Includes bibliographical references leaves 55-56.Representation theory of finite groups associates two classical constructions to a group G, namely the representation ring of G and the Burnside ring of G. These rings share a special structure that comes from three classical maps, namely restriction, conjugation, and transfer maps. These are not the only objects having this structure and the theory of Mackey functors, introduced by Green, unifies the treatment of such objects. The above constructions share a further structure that comes from two other maps, the inflation map and the deflation map. Unified treatment of the objects having this further structure was introduced by Bouc [4]. These objects are called biset functors. Between Mackey functors and biset functors there lies more natural constructions, for example the functor of group (co)homology. In order to handle these intermediate structures, Bouc introduced another concept, now known as globallydefined Mackey functors, a name given by Webb. In this thesis, we unify the above theories by considering the algebra whose module category is equivalent to the category of biset functors and by introducing alcahestic group functors. Our main results classify and describe simple alcahestic group functors and give a criterion of semisimplicity for the categories of these functors.ix, 56 leavesEnglishinfo:eu-repo/semantics/openAccessbiset functormark morphismsemisimplicitycoinductioninductionsimple functoralchemic algebra(alcahestic) group functorGDMFMackey functorQA169 .C67 2008Functor theory.Algebraic functions.Induction (Mathematics)Burnside problem.Thesis