0000000000642176

AUTHOR

Alfonso Di Bartolo

showing 6 related works from this author

Fermat quotient and the p-th root of a p-adic integer

2008

Fermat quotient Witt vectorsSettore MAT/03 - Geometria
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The periods of the generalized Jacobian of a complex elliptic curve

2015

Abstract We show that the toroidal Lie group G = ℂ2/Λ, where Λ is the lattice generated by (1, 0), (0, 1) and (τ̂, τ͂), with τ̂ ∉ ℝ, is isomorphic to the generalized Jacobian JL of the complex elliptic curve C with modulus τ̂, defined by any divisor class L ≡ (M) + (N) of C fulfilling M − N = [℘ (τ͂) : ℘´(τ͂) : 1] ∈ C. This follows from an apparently new relation between the Weierstrass sigma and elliptic functions.

Elliptic curve point multiplicationQuarter periodGeneralized JacobianModular elliptic curveJacobian curveMathematical analysisHessian form of an elliptic curveGeometry and TopologyGeneralized Jacobians toroidal Lie groupsSettore MAT/03 - GeometriaTripling-oriented Doche–Icart–Kohel curveMathematicsJacobi elliptic functions
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Witt vectors and Fermat quotients

2008

Abstract We give a representation of any integer as a vector of the Witt ring W ( Z p ) and relate it to the Fermat quotient q ( n ) = ( n p − 1 − 1 ) / p . Logarithms are introduced in order to establish an isomorphism between the commutative unipotent groups 1 + p W ( Z p ) and W ( Z p ) .

Witt vectors Fermat QuotientsFermat quotientRing (mathematics)Pure mathematicsAlgebra and Number TheoryIntegerOrder (ring theory)IsomorphismUnipotentWitt vectorQuotientMathematicsJournal of Number Theory
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Algebraic (2, 2)-transformation groups

2009

This paper contains the more significant part of the article with the same title that will appear in the Volume 12 of Journal of Group Theory (2009). In this paper we determine all algebraic transformation groups $G$, defined over an algebraically closed field $\sf k$, which operate transitively, but not primitively, on a variety $\Omega$, provided the following conditions are fulfilled. We ask that the (non-effective) action of $G$ on the variety of blocks is sharply 2-transitive, as well as the action on a block $\Delta$ of the normalizer $G_\Delta$. Also we require sharp transitivity on pairs $(X,Y)$ of independent points of $\Omega$, i.e. points contained in different blocks.

Transitive relationAlgebra and Number TheoryNaturwissenschaftliche Fakultät -ohne weitere Spezifikation-14L30permutation groupsBlock (permutation group theory)-Group Theory (math.GR)Permutation groupCentralizer and normalizerAction (physics)CombinatoricsFOS: Mathematicsddc:510Variety (universal algebra)Algebraically closed fieldAlgebraic numberMathematics - Group TheoryMathematicsJournal of Group Theory
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Locally compact (2, 2)-transformation groups

2010

We determine all locally compact imprimitive transformation groups acting sharply 2-transitively on a non-totally disconnected quotient space of blocks inducing on any block a sharply 2-transitive group and satisfying the following condition: if Δ1, Δ2 are two distinct blocks and Pi, Qi ∈ Δi (i = 1, 2), then there is just one element in the inertia subgroup which maps Pi onto Qi. These groups are natural generalizations of the group of affine mappings of the line over the algebra of dual numbers over the field of real or complex numbers or over the skew-field of quaternions. For imprimitive locally compact groups, our results correspond to the classical results of Kalscheuer for primitive l…

Topological imprimitive transformation groupKalscheuer near-fieldSettore MAT/03 - Geometriadual quaternions
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Centralizers of unipotent subgroups

2004

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