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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Partitioning the Set of Subgroups of a Finite Group Using Thompson's Generalized Characters

Doyle, Michael Patrick 21 April 2015 (has links)
No description available.
2

Two Approaches to Clifford's Theorem

Miller, Shannon J. 06 May 2021 (has links)
No description available.
3

Prime Character Degree Graphs of Solvable Groups having Diameter Three

Sass, Catherine Bray 24 April 2014 (has links)
No description available.
4

Pojetí hlavních postav ve vybraných románech Rómula Gallegose / Creation of protagonists in selected novels by Rómulo Gallegos

Kratochvílová, Jana January 2013 (has links)
Title of the Master's Thesis: Creation of protagonists in selected novels by Rómulo Gallegos Abstract: The goal of the thesis is a detailed analysis of the main characters of the novels Doňa Barbara and La Trepadora written by Rómulo Gallegos, one of the frontmen of "regionalism". Based on several expert essays, an original theoretical scheme of character analysis is formulated. It follows character indicators in the text, relationship to other compounds of the novels, typology determination, and reader's construct of the character in the story including the role of perception. The thesis also studies an analysis of acting forces and seeks common features of both novels, the prime one being the conflict of dual value systems.
5

Generalized Bent Functions With Perfect Nonlinear Functions On Arbitrary Groups

Yilmaz, Emrah Sercan 01 September 2012 (has links) (PDF)
This thesis depends on the paper &lsquo / Non-Boolean Almost Perfect Nonlinear Functions on Non- Abelian Groups&rsquo / by Laurent Poinsot and Alexander Pott and we have no new costructions here. We give an introduction about character theory and the paper of Poinsot and Pott, and we also compare previous definitions of bent functions with the definition of the bent function in the paper. As a conclusion, we give new theoretical definitions of bent, PN, APN ana maximum nonlinearity. Moreover, we show that bent and PN functions are not always same in the non-abelian cases.
6

Enumeration of Factorizations in the Symmetric Group: From Centrality to Non-centrality

Sloss, Craig January 2011 (has links)
The character theory of the symmetric group is a powerful method of studying enu- merative questions about factorizations of permutations, which arise in areas including topology, geometry, and mathematical physics. This method relies on having an encoding of the enumerative problem in the centre Z(n) of the algebra C[S_n] spanned by the symmetric group S_n. This thesis develops methods to deal with permutation factorization problems which cannot be encoded in Z(n). The (p,q,n)-dipole problem, which arises in the study of connections between string theory and Yang-Mills theory, is the chief problem motivating this research. This thesis introduces a refinement of the (p,q,n)-dipole problem, namely, the (a,b,c,d)- dipole problem. A Join-Cut analysis of the (a,b,c,d)-dipole problem leads to two partial differential equations which determine the generating series for the problem. The first equation determines the series for (a,b,0,0)-dipoles, which is the initial condition for the second equation, which gives the series for (a,b,c,d)-dipoles. An analysis of these equa- tions leads to a process, recursive in genus, for solving the (a,b,c,d)-dipole problem for a surface of genus g. These solutions are expressed in terms of a natural family of functions which are well-understood as sums indexed by compositions of a binary string. The combinatorial analysis of the (a,b,0,0)-dipole problem reveals an unexpected fact about a special case of the (p,q,n)-dipole problem. When q=n−1, the problem may be encoded in the centralizer Z_1(n) of C[S_n] with respect to the subgroup S_{n−1}. The algebra Z_1(n) has many combinatorially important similarities to Z(n) which may be used to find an explicit expression for the genus polynomials for the (p,n−1,n)-dipole problem for all values of p and n, giving a solution to this case for all orientable surfaces. Moreover, the algebraic techniques developed to solve this problem provide an alge- braic approach to solving a class of non-central problems which includes problems such as the non-transitive star factorization problem and the problem of enumerating Z_1- decompositions of a full cycle, and raise intriguing questions about the combinatorial significance of centralizers with respect to subgroups other than S_{n−1}.
7

Enumeration of Factorizations in the Symmetric Group: From Centrality to Non-centrality

Sloss, Craig January 2011 (has links)
The character theory of the symmetric group is a powerful method of studying enu- merative questions about factorizations of permutations, which arise in areas including topology, geometry, and mathematical physics. This method relies on having an encoding of the enumerative problem in the centre Z(n) of the algebra C[S_n] spanned by the symmetric group S_n. This thesis develops methods to deal with permutation factorization problems which cannot be encoded in Z(n). The (p,q,n)-dipole problem, which arises in the study of connections between string theory and Yang-Mills theory, is the chief problem motivating this research. This thesis introduces a refinement of the (p,q,n)-dipole problem, namely, the (a,b,c,d)- dipole problem. A Join-Cut analysis of the (a,b,c,d)-dipole problem leads to two partial differential equations which determine the generating series for the problem. The first equation determines the series for (a,b,0,0)-dipoles, which is the initial condition for the second equation, which gives the series for (a,b,c,d)-dipoles. An analysis of these equa- tions leads to a process, recursive in genus, for solving the (a,b,c,d)-dipole problem for a surface of genus g. These solutions are expressed in terms of a natural family of functions which are well-understood as sums indexed by compositions of a binary string. The combinatorial analysis of the (a,b,0,0)-dipole problem reveals an unexpected fact about a special case of the (p,q,n)-dipole problem. When q=n−1, the problem may be encoded in the centralizer Z_1(n) of C[S_n] with respect to the subgroup S_{n−1}. The algebra Z_1(n) has many combinatorially important similarities to Z(n) which may be used to find an explicit expression for the genus polynomials for the (p,n−1,n)-dipole problem for all values of p and n, giving a solution to this case for all orientable surfaces. Moreover, the algebraic techniques developed to solve this problem provide an alge- braic approach to solving a class of non-central problems which includes problems such as the non-transitive star factorization problem and the problem of enumerating Z_1- decompositions of a full cycle, and raise intriguing questions about the combinatorial significance of centralizers with respect to subgroups other than S_{n−1}.
8

Orders of Perfect Groups with Dihedral Involution Centralizers

Strayer, Michael Christopher 23 May 2013 (has links)
No description available.
9

Counting the Faithful Irreducible Characters of Subgroups of the Iterated Regular Wreath Product

Raies, Daniel N. 16 May 2012 (has links)
No description available.
10

Character Degree Graphs of Almost Simple Groups

Montanaro, William M., Jr. 28 April 2014 (has links)
No description available.

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