On Galois isomorphisms between ideals in extensions of local fields.
Let be a finite extension of , let , respectively , be the division fields of level , respectively , arising from a Lubin-Tate formal group over , and let Gal(). It is known that the valuation ring cannot be free over its associated order in unless . We determine explicitly under the hypothesis that the absolute ramification index of is sufficiently large.
Let be a finite extension of with ramification index , and let be a finite abelian -extension with Galois group and ramification index . We give a criterion in terms of the ramification numbers for a fractional ideal of the valuation ring of not to be free over its associated order . In particular, if then the inverse different can be free over its associated order only when (mod ) for all . We give three consequences of this. Firstly, if is a Hopf order and is -Galois...
Let be a finite extension of discrete valuation rings of characteristic , and suppose that the corresponding extension of fields of fractions is separable and is -Galois for some -Hopf algebra . Let be the different of . We show that if is totally ramified and its degree is a power of , then any element of with generates as an -module. This criterion is best possible. These results generalise to the Hopf-Galois situation recent work of G. G. Elder for Galois extensions.
Let be an extension of algebraic number fields, where is abelian over . In this paper we give an explicit description of the associated order of this extension when is a cyclotomic field, and prove that , the ring of integers of , is then isomorphic to . This generalizes previous results of Leopoldt, Chan Lim and Bley. Furthermore we show that is the maximal order if is a cyclic and totally wildly ramified extension which is linearly disjoint to , where is the conductor of .
Which invariants of a Galois -extension of local number fields (residue field of char , and Galois group ) determine the structure of the ideals in as modules over the group ring , the -adic integers? We consider this question within the context of elementary abelian extensions, though we also briefly consider cyclic extensions. For elementary abelian groups , we propose and study a new group (within the group ring where is the residue field) and its resulting ramification filtrations....
Given an algebraic number field and a finite group , we write for the subset of the locally free classgroup consisting of the classes of rings of integers in tame Galois extensions with . We determine , and show it is a subgroup of by means of a description using a Stickelberger ideal and properties of some cyclic codes, when contains a root of unity of prime order and , where is an elementary abelian group of order and is a cyclic group of order acting faithfully on...
Page 1