2026-05-28T22:56:40Zhttps://riuma.uma.es/rest/oai/request

oai:riuma.uma.es:10630/134142026-02-03T12:17:13Zcom_10630_2254col_10630_37959

00925njm 22002777a 4500 dc Kanuni, Müge author 2017-04-04 During the 2015 CIMPA Research School in Turkey on “Leavitt path algebras and graph C*-algebras”, Astrid an Huef raised the question whether the statement: For a given graph E, every (closed) ideal I of C*(E) is the intersection of all the primitive/prime ideals containing I is true for ideals of Leavitt path algebras. We first construct examples showing that this statement does not hold in general for Leavitt path algebras, and then prove that, every ideal of the Leavitt path algebra is an intersection of primitive/prime ideals if and only if the graph E satisfies Condition (K). We examine the uniqueness of factorizing a graded ideal as a product of prime ideals. If I is a graded ideal and I is the intersection of ideals P1, ..., Pn, (we say that it is a factorization of I) as an irredundant product of prime ideals Pi, then necessarily all the ideals Pi must be graded ideals and I is the product of all of them. We get a weaker version of this result for non-graded ideals. Finally, powers of an ideal I are studied. While I2 = I for any graded ideal I, for a non-graded ideal I, all In are non-graded and distinct, but the intersection of all the powers of I is a graded ideal which is the largest graded ideal contained in I. Hence, this intersection is 0 if and only if I contains no vertices. (This is joint work with S. Esin and K.M. Rangaswamy) http://hdl.handle.net/10630/13414 Álgebra lineal On intersections of ideals of Leavitt path algebras