2 edition of **3-class groups of non-Galois cubic fields** found in the catalog.

3-class groups of non-Galois cubic fields

Thomas Henry Callahan

- 297 Want to read
- 15 Currently reading

Published
**1974**
by s.n.] in [Toronto
.

Written in English

- Class field theory,
- Equations, Cubic

**Edition Notes**

Contributions | Toronto, Ont. University. |

The Physical Object | |
---|---|

Pagination | i, 75 leaves : |

Number of Pages | 75 |

ID Numbers | |

Open Library | OL14848105M |

Abstract. For an algebraic number field K with 3-class group CI3 (K) of type (3,3), the structure of the 3-class groups CI3 (Ni) of the four unramified cyclic cubic extension fields iV¿, 1 group G '(K) = Gsl(F^(K)'K) of the second Hilbert 3-class field F 1(K) of K. 3)=Q is Galois of degree 4, so its Galois group has order 4. The elements of the Galois group are determined by their values on p p 2 and 3. The Q-conjugates of p 2 and p 3 are p 2 and p 3, so we get at most four possible automorphisms in the Galois group. See Table1. Since the Galois group has order 4, these 4 possible assignments of values to.

Book Reviews bring interesting mathematical sciences and education publications drawn from across the entire spectrum of mathematics to the attention of the CMS readership. Comments, suggestions, and submissions are welcome. Karl Dilcher, Dalhousie University ([email protected]) Cubic Fields with Geometry S. A. Hambleton and H. C. WilliamsCMS Books in Mathematics, Springer, . The structure of the 3-class groups of the four unramified cyclic cubic extensions of a number field with 3-class group of type (3,3), Journées de Théorie des Nombres, Algorithmique et Applications, Université Mohammed Premier, FSO, Oujda, Morocco Quadratic p-ring spaces for counting dihedral fields.

separable of degree 3, the Galois group G= Gal(F=K) is A 3 i the discriminant of f(x) is the square of an element in K. Otherwise, the Galois group is S 3. Notice that this provides another proof that any irreducible cubic in Q[x] with only one real root has Galois group S 3, since the discriminant will be nega-tive and hence will not be a. A very beautiful classical theory on field extensions of a certain type (Galois extensions) initiated by Galois in the 19th century. Explains, in particular, why it is not possible to solve an equation of degree 5 or more in the same way as we solve quadratic or cubic equations.

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That there might be a relation was first suggested by computer calculations in KANT of the 3-class groups of non-Galois cubic fields associated to F = Q(√ −23). Specifically, F is the smallest imaginary quadratic field with class number divisible by 3 and it in fact equals by: 2.

Recently Calegari and Emerton made a conjecture about the 3-class groups of certain pure cubic fields and their normal closures. This paper proves their conjecture and provides additional insight.

Title: Ranks of 3-class groups of non-Galois cubic fields Author: F. Gerth III Created Date: 12/23/ AM. Corpus ID: On 3-class groups of certain pure cubic fields @inproceedings{JonesOn3G, title={On 3-class groups of certain 3-class groups of non-Galois cubic fields book cubic fields}, author={Jones and J.

Hyam Rubinstein and Elizabeth J. Billington J. Giles and G. Lehrer and Jamie Simpson and Graeme Cairns and J.

Hempel and K. McAvaney and Brailey Sims and Jenny Clark and Barry D. 3-Class groups of cubic cyclic function fields Zhengjun ZHAO∗, School of Mathematics and Computational Science, Anqing Normal University, Anqing, P.R.

China Received: • Accepted/Published Online: • Final Version: Abstract: Let F be a global function field over the finite constant fieldFq with 3 j q 1, and. For a family of G-fields K, we show an effective prime ideal theorem with probability 1.

Namely, outside a density zero set, π(x, K)=Li(x)+O(x/(log x) 2) for x≥ (log d K) c for. Abstract. We introduce a new method to bound ℓ-torsion in class groups, combining analytic ideas with reflection principles. This gives, in particular, new bounds for the 3-torsion part of class groups in quadratic, cubic and quartic number fields, as well as bounds for certain families of higher degree fields.

Frey and his coauthors have established a relationship between the 2-torsion of the Selmer group of an elliptic curve of the special form E: y 2 =x 3 ±k 2 and the 2-class number of pure cubic field K= Q ((∓k 2) 1/3)= Q ((∓k) 1/3).

In the present paper we prove a far-reaching generalization of an analogous relationship between the 2-rank of any non-Galois cubic number fieldKand the 2. Reviews and Descriptions of Tables and Books. Journal: Math. Comp. 29 (), A table of complex cubic fields, Bull. London Math. Soc.

5 (), 37– The 3-class groups of non-Galois cubic fields. I, II, Mathematika 21 (), 72–89; ibid. 21 (). For a prime p ≥ 2 and a number field K with p-class group of type (p, p) it is shown that the class, coclass, and further invariants of the metabelian Galois group of the second Hilbert p-class field of K are determined by the p-class numbers of the unramified cyclic extensions N i |K, 1 ≤ i ≤ p + 1, of relative degree p.

In the case of a quadratic field and an odd prime p ≥ 3, the. In this section, our intention is to shed light on the structure of the entire 3-class group C k;3 ofthenormalclosurek of whichisminorizedbythe3-groupC (˙) From the broader perspective of arbitrary non-Galois cubic ﬁelds, equation (8) can also be derived from [27], namely from Thm.eqn.

(), p.for species 1a, and, taking. On 3-class groups of non-Galois cubic fields. Iimura, K. On 3-class groups of pure cubic fields. Gerth, F. On the p-rank of the tame kernel of algebraic number fields. Browkin, J. Remarks on principal factors in a relative cubic field.

Barrucand, P.; Cohn, H. Introduction to Cyclotomic Fields. CiteSeerX - Document Details (Isaac Councill, Lee Giles, Pradeep Teregowda): Abstract. Weinberger in has shown that under the Generalized Riemann Hypothesis for Dedekind zeta functions, an algebraic number field with infinite unit group is Euclidean if and only if it is a principal ideal domain.

Using a method recently introduced by us, we give two examples of cubic fields which are. These 99 imaginary quadratic fields are analyzed here and the class groups are given and discussed for all those of special interest.

In 98 cases, the associated real quadratic fields have, but for has a class group ; and this is now the smallest known d for which a real quadratic field has. Recently, Lemmermeyer presented a conjecture about 3 -class groups of pure cubic fields L = ℚ (p 3) and of their normal closures k = ℚ (p 3, ζ 3).

The main goal of this paper is to reduce Lemmermeyer’s conjecture to a problem of unit theory by showing that the conjecture of. In mathematics, a Galois extension is an algebraic field extension E/F that is normal and separable; or equivalently, E/F is algebraic, and the field fixed by the automorphism group Aut(E/F) is precisely the base field significance of being a Galois extension is that the extension has a Galois group and obeys the fundamental theorem of Galois theory.

A result of Emil Artin allows one to. Theorem. Let $\alpha$ be a primitive element of a cubic extension $\mathbb{Q}(\alpha)$ over $\mathbb{Q}$.

Then $\mathbb{Q}(\alpha)$ is Galois over $\mathbb{Q}$ if and only if the discriminant of the irreducible polynomial of $\alpha$ is a rational square. Introduction. Let / be a prime number. Let k be a fmite extension field of the rational numbers 0, and let H (k) denote the /-class group of k, i.e., the Sylow /-subgroup of the ideal class group of k.

Let H be the subgroup of H (k), generated by the classes of the primes of k that ramify fully over 0. In a previous paper [7], we have shown that if /c/0 is non-Galois cubic, a lower bound for.

However, any other cubic field K is a non-galois extension of Q and has a field extension N of degree two as its Galois closure. The Galois group Gal(N/Q) is isomorphic to the symmetric group S 3 on three letters. Associated quadratic field. The discriminant of a cubic field K can be written uniquely as df 2 where d is a fundamental discriminant.

The 3‐class groups of non‐Galois cubic fields—I. Callahan; Pages: ; First Published: 01 June ; First Page; PDF; Request permissions; no Class groups of metacyclic groups of order p'q,p a regular prime M. Keating; Pages: ; First Published: 01 June.

The Connection between Cubic Fields and Dual Quadratic Fields * The deeper background of Cardano's Formula for the zeros of cubic polynomials: > W. H. E. Berwick classifies Non-Galois Cubic Fields with respect to the 3-class rank of the dual quadratic fields of the quadratic subfields of the Sextic Normal Fields.Abstract.

In this paper, we study the p-rank of the tame kernels of pure cubic particular, we prove that for a fixed positive integer m, there exist infinitely many pure cubic fields whose 3-rank of the tame kernel equal to an application, we determine the 3-rank of their tame kernels for some special pure cubic fields.%N Discriminants of real quadratic fields with cyclic 3-class group (3).

%C According to the Hasse formula d(K)=f^2*d for the discriminant d(K) of a non-Galois totally real cubic field in terms of the conductor f and the associated discriminant d of the real quadratic subfield of the normal closure of K, the sequence A contains all.