Antonio Lotta scite author profile

Antonio Lotta

5Publications

37Citation Statements Received

134Citation Statements Given

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University of Bari Aldo Moro, University of Pisa

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A Classification of Spherical Symmetric Cr Manifolds

Dileo¹,

Lotta²

2009

Bull. Aust. Math. Soc.

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In this paper we get different characterizations of the spherical strictly pseudoconvex CR manifolds admitting a CR-symmetric Webster metric by means of the Tanaka-Webster connection and of the Riemannian curvature tensor. As a consequence we obtain the classification of the simply connected, spherical symmetric pseudo-Hermitian manifolds.2000 Mathematics subject classification: primary 53C15, 53C25, 53C35; secondary 32V05.

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On a class of symmetric CR manifolds

Lotta

Nacinovich

2005

Advances in Mathematics

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The classical notions of Riemannian and Hermitian symmetric spaces have recently been extended to CR manifolds by W. Kaup and the reviewer [Adv. Math. 149 (2000), no. 2, 145--181; MR1742704 (2000m:32044)]. Here, in order to contain natural examples such as spheres, one has to appropriately weaken the notion of symmetry by requiring that its differential at the reference point be the negative identity only in the complex tangent directions (and possibly other directions if the CR manifold is not of finite type). It was shown that examples of symmetric CR manifolds include spheres in ${\bf C}^n$Cn and, more generally, Shilov boundaries of bounded symmetric domains in their circular realizations.\ud The latter class of CR manifolds admits a natural generalization as minimal orbits in complex flag manifolds, which is the subject of the present paper. Consider a complex flag manifold $F=G^{\bf C}/Q$F=GC/Q, where $G^{\bf C}$GC is a connected semisimple complex Lie group with real form $G$G and $Q\subset G^{\bf C}$Q⊂GC is a parabolic subgroup. Let $M$M be the $G$G-orbit in $F$F of the minimal possible dimension (the minimal orbit), which is uniquely determined by this condition and is compact.\ud The authors begin by associating a complex flag manifold to every Levi-Tanaka algebra (the latter having been extensively studied by C. Medori and the second author in a series of papers) and showing that the minimal orbit $M$M is always a symmetric CR manifold in this case. A key step is the construction of the symmetries, based on the property of a semisimple Levi-Tanaka algebra that its (partial) complex structure $J$J is induced by an inner derivation corresponding to an element $\tilde J$J˜ of the algebra. The latter property is called the "$(J)$(J) property''. Then the symmetries are obtained from the action by the group element $\exp(\pi \tilde J)$exp(πJ˜) and its conjugations.\ud As a next step, the conclusion is extended to more general classes of complex flag manifolds having the $(J)$(J) property. Finally, a complete classification for fundamental minimal parabolic CR algebras having the $(J)$(J) property is given in terms of the so-called $\sigma$σ-diagrams

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General Properties of Slant Submanifolds in Contact Metric Manifolds

Lotta

2022

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Riemannian almost CR manifolds with torsion

Dileo¹,

Lotta²

2014

Illinois J. Math.

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We characterize and study Riemannian almost CR manifolds admitting characteristic connections, that is, metric connections with totally skew-symmetric torsion parallelizing the almost CR structure. Natural constructions are provided of new nontrivial examples. We study the influence of the curvature of the metric on the underlying almost CR structure. A global classification is obtained under flatness assumption of a characteristic connection, provided that the fundamental 2-form of the structure is closed (quasi Sasakian condition).

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Non existence of homogeneous contact metric manifolds of non positive curvature

Lotta

2010

Tohoku Math. J. (2)

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Antonio Lotta

A Classification of Spherical Symmetric Cr Manifolds

On a class of symmetric CR manifolds

General Properties of Slant Submanifolds in Contact Metric Manifolds

Riemannian almost CR manifolds with torsion

Non existence of homogeneous contact metric manifolds of non positive curvature

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