Killing vectors and geodesic flow vectors on tangent bundles.

AbstractWe improve and extend a result due to M. Kanai about rigidity of geodesic flows on closed Riemannian manifolds of negative curvature whose stable or unstable horospheric foliation is smooth. More precisely, the main results proved here are: (1) Let M be a closed C∞ Riemannian manifold of negative sectional curvature. Assume the stable or unstable foliation of the geodesic flow φt: V → V on the unit tangent bundle V of M is C∞. Assume, moreover, that either (a) the sectional curvature of M satisfies −4 < K ≤ −1 or (b) the dimension of M is odd. Then the geodesic flow of M is C∞-isomorphic (i.e., conjugate under a C∞ diffeomorphism between the unit tangent bundles) to the geodesic flow on a closed Riemannian manifold of constant negative curvature. (2) For M as above, assume instead of (a) or (b) that dim M ≡ 2(mod 4). Then either the above conclusion holds or φ1, is C∞-isomorphic to the flow , on the quotient Γ\, where Γ is a subgroup of a real Lie group ⊂ Diffeo () with Lie algebra is the geodesic flow on the unit tangent bundle of the complex hyperbolic space ℂHm, m = ½ dim M.

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Affine Killing vectors in the tangent bundles

Kodai Mathematical Journal ◽

10.2996/kmj/1138036424 ◽

1981 ◽

Vol 4 (3) ◽

pp. 383-398 ◽

Cited By ~ 1

Author(s):

Ichiro Yokote

Keyword(s):

Killing Vectors ◽

Tangent Bundles

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Invariant Kähler structures on the cotangent bundles of compact symmetric spaces

Nagoya Mathematical Journal ◽

10.1017/s0027763000008497 ◽

2003 ◽

Vol 169 ◽

pp. 191-217 ◽

Cited By ~ 4

Author(s):

Ihor V. Mykytyuk

Keyword(s):

Geodesic Flow ◽

Symmetric Spaces ◽

Compact Type ◽

Reduction Procedure ◽

Cotangent Bundles ◽

Rank One ◽

Compact Symmetric Spaces ◽

Kähler Structures ◽

Tangent Bundles

AbstractFor rank-one symmetric spaces M of the compact type all Kähler structures Fλ, defined on their punctured tangent bundles T0 M and invariant with respect to the normalized geodesic flow on T0 M, are constructed. It is shown that this class {Fλ} of Kähler structures is stable under the reduction procedure.

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Complete integrability of geodesic motion in Sasaki–Einstein toric Yp,q spaces

Modern Physics Letters A ◽

10.1142/s0217732315501801 ◽

2015 ◽

Vol 30 (33) ◽

pp. 1550180 ◽

Cited By ~ 13

Author(s):

Elena Mirela Babalic ◽

Mihai Visinescu

Keyword(s):

Geodesic Flow ◽

Einstein Manifold ◽

Complete Integrability ◽

Geodesic Motion ◽

Integrals Of Motion ◽

Killing Vectors ◽

Einstein Spaces ◽

Constants Of Motion ◽

Complete Set

We construct explicitly the constants of motion for geodesics in the five-dimensional Sasaki–Einstein spaces [Formula: see text]. To carry out this task, we use the knowledge of the complete set of Killing vectors and Killing–Yano tensors on these spaces. In spite of the fact that we generate a multitude of constants of motion, only five of them are functionally independent implying the complete integrability of geodesic flow on [Formula: see text] spaces. In the particular case of the homogeneous Sasaki–Einstein manifold [Formula: see text] the integrals of motion have simpler forms and the relations between them are described in detail.

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Hypoelliptic Laplacian and Orbital Integrals (AM-177)

10.23943/princeton/9780691151298.001.0001 ◽

2011 ◽

Cited By ~ 5

Author(s):

Jean-Michel Bismut

Keyword(s):

Fixed Point ◽

Symmetric Space ◽

Heat Kernel ◽

Geodesic Flow ◽

Casimir Operator ◽

Index Theory ◽

Weighted Sum ◽

Orbital Integrals ◽

Hypoelliptic Heat Kernel ◽

Wave Kernel

This book uses the hypoelliptic Laplacian to evaluate semisimple orbital integrals in a formalism that unifies index theory and the trace formula. The hypoelliptic Laplacian is a family of operators that is supposed to interpolate between the ordinary Laplacian and the geodesic flow. It is essentially the weighted sum of a harmonic oscillator along the fiber of the tangent bundle, and of the generator of the geodesic flow. In this book, semisimple orbital integrals associated with the heat kernel of the Casimir operator are shown to be invariant under a suitable hypoelliptic deformation, which is constructed using the Dirac operator of Kostant. Their explicit evaluation is obtained by localization on geodesics in the symmetric space, in a formula closely related to the Atiyah-Bott fixed point formulas. Orbital integrals associated with the wave kernel are also computed. Estimates on the hypoelliptic heat kernel play a key role in the proofs, and are obtained by combining analytic, geometric, and probabilistic techniques. Analytic techniques emphasize the wavelike aspects of the hypoelliptic heat kernel, while geometrical considerations are needed to obtain proper control of the hypoelliptic heat kernel, especially in the localization process near the geodesics. Probabilistic techniques are especially relevant, because underlying the hypoelliptic deformation is a deformation of dynamical systems on the symmetric space, which interpolates between Brownian motion and the geodesic flow. The Malliavin calculus is used at critical stages of the proof.

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ON A PERFECT FLUID KÂ¨ AHLER SPACETIME

JOURNAL OF ADVANCES IN PHYSICS ◽

10.24297/jap.v12i3.44 ◽

2016 ◽

Vol 12 (3) ◽

pp. 4350-4355

Author(s):

VIBHA SRIVASTAVA ◽

P. N. PANDEY

Keyword(s):

Field Equation ◽

Perfect Fluid ◽

Sectional Curvature ◽

Einstein Field Equation ◽

Cosmological Term ◽

Conformal Killing ◽

Killing Vectors ◽

Projectively Flat ◽

Conformal Killing Vectors

The object of the present paper is to study a perfect fluid KÂ¨ahlerspacetime. A perfect fluid KÂ¨ahler spacetime satisfying the Einstein field equation with a cosmological term has been studied and the existence of killingand conformal killing vectors have been discussed. Certain results related to sectional curvature for pseudo projectively flat perfect fluid KÂ¨ahler spacetime have been obtained. Dust model for perfect fluid KÂ¨ahler spacetime has also been studied.

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New cases of integrable systems with dissipation on the tangent bundles of multi-dimensional manifolds

Доклады Академии наук ◽

10.31857/s086956520003039-5 ◽

2018 ◽

Vol 482 (5) ◽

pp. 527-533

Author(s):

M. Shamolin ◽

Keyword(s):

Integrable Systems ◽

Tangent Bundles

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Chern-Simons invariants and heterotic superpotentials

Journal of High Energy Physics ◽

10.1007/jhep09(2020)141 ◽

2020 ◽

Vol 2020 (9) ◽

Author(s):

Lara B. Anderson ◽

James Gray ◽

Andre Lukas ◽

Juntao Wang

Keyword(s):

Heterotic String ◽

New Techniques ◽

Vacuum Stability ◽

Large Classes ◽

Moduli Stabilization ◽

String Compactifications ◽

Key Features ◽

Effective Theories ◽

Chern Simons ◽

Tangent Bundles

Abstract The superpotential in four-dimensional heterotic effective theories contains terms arising from holomorphic Chern-Simons invariants associated to the gauge and tangent bundles of the compactification geometry. These effects are crucial for a number of key features of the theory, including vacuum stability and moduli stabilization. Despite their importance, few tools exist in the literature to compute such effects in a given heterotic vacuum. In this work we present new techniques to explicitly determine holomorphic Chern-Simons invariants in heterotic string compactifications. The key technical ingredient in our computations are real bundle morphisms between the gauge and tangent bundles. We find that there are large classes of examples, beyond the standard embedding, where the Chern-Simons superpotential vanishes. We also provide explicit examples for non-flat bundles where it is non-vanishing and non-integer quantized, generalizing previous results for Wilson lines.

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