Simplification of radicals with applications to solving polynomial equations.

Zippel, R. E. (Richard E.), 1952-

January 1977

Thesis: M.S., Massachusetts Institute of Technology, Department of Electrical Engineering and Computer Science, 1977 / Bibliography : leaves 29-30. / M.S. / M.S. Massachusetts Institute of Technology, Department of Electrical Engineering and Computer Science

Algebraic number theory.

Equations, Roots of.

Equations, Roots of. fast

Algebraic number theory. fast

Distribution of additive functions in algebraic number fields

Hughes, Garry.

January 1987

Bibliography: leaves 90-93.

Probabilistic number theory

Algebraic fields

Algebraic number theory

Dihedral quintic fields with a power basis

Lavallee, Melisa Jean

11 1900

Cryptography is defined to be the practice and studying of hiding information and is used in applications present today; examples include the security of ATM cards and computer passwords ([34]). In order to transform information to make it unreadable, one needs a series of algorithms. Many of these algorithms are based on elliptic curves because they require fewer bits. To use such algorithms, one must find the rational points on an elliptic curve. The study of Algebraic Number Theory, and in particular, rare objects known as power bases, help determine what these rational points are. With such broad applications, studying power bases is an interesting topic with many research opportunities, one of which is given below. There are many similarities between Cyclic and Dihedral fields of prime degree; more specifically, the structure of their field discriminants is comparable. Since the existence of power bases (i.e. monogenicity) is based upon finding solutions to the index form equation - an equation dependant on field discriminants - does this imply monogenic properties of such fields are also analogous? For instance, in [14], Marie-Nicole Gras has shown there is only one monogenic cyclic field of degree 5. Is there a similar result for dihedral fields of degree 5? The purpose of this thesis is to show that there exist infinitely many monogenic dihedral quintic fields and hence, not just one or finitely many. We do so by using a well- known family of quintic polynomials with Galois group D₅. Thus, the main theorem given in this thesis will confirm that monogenic properties between cyclic and dihedral quintic fields are not always correlative.

Dihedral quintic fields

Power bases

Algorithms

Algebraic number theory

Group laws and complex multiplication in local fields.

Urda, Michael

January 1972

No description available.

Lie groups

Algebraic number theory

Algebraic fields.

Abelian groups

Dihedral quintic fields with a power basis

Lavallee, Melisa Jean

11 1900

Cryptography is defined to be the practice and studying of hiding information and is used in applications present today; examples include the security of ATM cards and computer passwords ([34]). In order to transform information to make it unreadable, one needs a series of algorithms. Many of these algorithms are based on elliptic curves because they require fewer bits. To use such algorithms, one must find the rational points on an elliptic curve. The study of Algebraic Number Theory, and in particular, rare objects known as power bases, help determine what these rational points are. With such broad applications, studying power bases is an interesting topic with many research opportunities, one of which is given below. There are many similarities between Cyclic and Dihedral fields of prime degree; more specifically, the structure of their field discriminants is comparable. Since the existence of power bases (i.e. monogenicity) is based upon finding solutions to the index form equation - an equation dependant on field discriminants - does this imply monogenic properties of such fields are also analogous? For instance, in [14], Marie-Nicole Gras has shown there is only one monogenic cyclic field of degree 5. Is there a similar result for dihedral fields of degree 5? The purpose of this thesis is to show that there exist infinitely many monogenic dihedral quintic fields and hence, not just one or finitely many. We do so by using a well- known family of quintic polynomials with Galois group D₅. Thus, the main theorem given in this thesis will confirm that monogenic properties between cyclic and dihedral quintic fields are not always correlative.

Dihedral quintic fields

Power bases

Algorithms

Algebraic number theory

Equidistribution and L-functions in number theory.

Houde, Pierre

January 1973

No description available.

Algebraic number theory

Representations of groups.

Etale K-theory and Iwasawa theory of number fields.

Brauckmann, Boris. Kolster, M.

Unknown Date

Thesis (Ph.D.)--McMaster University (Canada), 1994. / Source: Dissertation Abstracts International, Volume: 56-01, Section: B, page: 0272. Director: M. Kolster.

Distribution of additive functions in algebraic number fields /

Hughes, Garry.

January 1987

Thesis (M. Sc.)--University of Adelaide, 1987. / Includes bibliographical references (leaves 90-93).

Lengths and homology of hyperbolic 3-manifolds /

Masters, Joseph David,

January 1999

Thesis (Ph. D.)--University of Texas at Austin, 1999. / Vita. Includes bibliographical references (leaves 67-69). Available also in a digital version from Dissertation Abstracts.

Dihedral quintic fields with a power basis

Lavallee, Melisa Jean

11 1900

Cryptography is defined to be the practice and studying of hiding information and is used in applications present today; examples include the security of ATM cards and computer passwords ([34]). In order to transform information to make it unreadable, one needs a series of algorithms. Many of these algorithms are based on elliptic curves because they require fewer bits. To use such algorithms, one must find the rational points on an elliptic curve. The study of Algebraic Number Theory, and in particular, rare objects known as power bases, help determine what these rational points are. With such broad applications, studying power bases is an interesting topic with many research opportunities, one of which is given below. There are many similarities between Cyclic and Dihedral fields of prime degree; more specifically, the structure of their field discriminants is comparable. Since the existence of power bases (i.e. monogenicity) is based upon finding solutions to the index form equation - an equation dependant on field discriminants - does this imply monogenic properties of such fields are also analogous? For instance, in [14], Marie-Nicole Gras has shown there is only one monogenic cyclic field of degree 5. Is there a similar result for dihedral fields of degree 5? The purpose of this thesis is to show that there exist infinitely many monogenic dihedral quintic fields and hence, not just one or finitely many. We do so by using a well- known family of quintic polynomials with Galois group D₅. Thus, the main theorem given in this thesis will confirm that monogenic properties between cyclic and dihedral quintic fields are not always correlative. / Graduate Studies, College of (Okanagan) / Graduate

Dihedral quintic fields

Power bases

Algorithms

Algebraic number theory