Algebra and Discrete Mathematics, 2007, Vol. 6

Algebra and Discrete Mathematics, 2007, Vol. 6 http://dspace.nbuv.gov.ua:80/handle/123456789/150345 2026-04-22T13:00:56Z 2026-04-22T13:00:56Z On closed rational functions in several variables Petravchuk, A.P. Iena, O.G. http://dspace.nbuv.gov.ua:80/handle/123456789/157399 2019-06-20T22:30:27Z 2007-01-01T00:00:00Z

On closed rational functions in several variables Petravchuk, A.P.; Iena, O.G. Let K = K¯ be a field of characteristic zero. An element ϕ ∈ K(x1,... ,xn) is called a closed rational function if the subfield K(ϕ) is algebraically closed in the field K(x1,... ,xn). We prove that a rational function ϕ = f/g is closed if f and g are algebraically independent and at least one of them is irreducible. We also show that a rational function ϕ = f/g is closed if and only if the pencil αf + βg contains only finitely many reducible hypersurfaces. Some sufficient conditions for a polynomial to be irreducible are given.

2007-01-01T00:00:00Z On classification of CM modules over hypersurface singularities Bondarenko, V.V. http://dspace.nbuv.gov.ua:80/handle/123456789/157398 2019-06-20T22:28:29Z 2007-01-01T00:00:00Z

On classification of CM modules over hypersurface singularities Bondarenko, V.V. This article is devoted to a special case of classification problem for Cohen-Macaulay modules over hypersurface singularities.

2007-01-01T00:00:00Z Characterization of clones of boolean operations by identities Butkote, R. Denecke, K. http://dspace.nbuv.gov.ua:80/handle/123456789/157376 2019-06-20T22:30:26Z 2007-01-01T00:00:00Z

Characterization of clones of boolean operations by identities Butkote, R.; Denecke, K. In [4] the authors characterized all clones of Boolean operations (Boolean clones) by functional terms. In this paper we consider a Galois connection between operations and equations and characterize all Boolean clones by using of identities. For each Boolean clone we obtain a set of equations with the property that an operation f belongs to this clone if and only if it satisfies these equations.

2007-01-01T00:00:00Z Self-similar groups and finite Gelfand pairs D’Angeli, D. Donno, A. http://dspace.nbuv.gov.ua:80/handle/123456789/157371 2019-06-20T22:30:19Z 2007-01-01T00:00:00Z

Self-similar groups and finite Gelfand pairs D’Angeli, D.; Donno, A. We study the Basilica group B, the iterated monodromy group I of the complex polynomial z 2 + i and the Hanoi Towers group H(3). The first two groups act on the binary rooted tree, the third one on the ternary rooted tree. We prove that the action of B, I and H(3) on each level is 2-points homogeneous with respect to the ultrametric distance. This gives rise to symmetric Gelfand pairs: we then compute the corresponding spherical functions. In the case of B and H(3) this result can also be obtained by using the strong property that the rigid stabilizers of the vertices of the first level of the tree act spherically transitively on the respective subtrees. On the other hand, this property does not hold in the case of I.

2007-01-01T00:00:00Z