Second variation formula and the stability of Legendrian minimal submanifolds in Sasakian manifolds

“…For harmonic maps, it is well know that: If a domain manifold (M, g) is complete and has non-negative Ricci curvature and the sectional curvature of a target manifold (N, h) is non-positive, then every nite harmonic map is a constant map [27]. See [28] and [29] for recent works on harmonic map. If M is noncompact, the maximum principle is no longer application.…”

Section: Conjecture 12 Every Biharmonic Submanifold Of a Riemannianmentioning

confidence: 99%

F-biharmonic maps into general Riemannian manifolds

2019

Open Mathematics

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Let ψ:(M, g) → (N, h) be a map between Riemannian manifolds (M, g) and (N, h). We introduce the notion of the F-bienergy functional$$\begin{array}{} \displaystyle E_{F,2}(\psi)=\int\limits_{M}F\left(\frac{|\tau(\psi)|^{2}}{2}\right)\text{d}V_{g}, \end{array}$$where F : [0, ∞) → [0, ∞) be C3 function such that F′ > 0 on (0, ∞), τ(ψ) is the tension field of ψ. Critical points of τF,2 are called F-biharmonic maps. In this paper, we prove a nonexistence result for F-biharmonic maps from a complete non-compact Riemannian manifold of dimension m = dimM ≥ 3 with infinite volume that admit an Euclidean type Sobolev inequality into general Riemannian manifold whose sectional curvature is bounded from above. Under these geometric assumptions we show that if the Lp-norm (p > 1) of the tension field is bounded and the m-energy of the maps is sufficiently small, then every F-biharmonic map must be harmonic. We also get a Liouville-type result under proper integral conditions which generalize the result of [Branding V., Luo Y., A nonexistence theorem for proper biharmonic maps into general Riemannian manifolds, 2018, arXiv: 1806.11441v2].

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“…To look for periodic trajectories, we restrict our attention to horizontal lifts of closed Riemannian circles. See also [21,Example 5.5].…”

Section: Magnetic Trajectories In Sl 2 Rmentioning

confidence: 99%

Magnetic curves in the real special linear group

Inoguchi,

Munteanu

2018

Preprint

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Second variation formula and the stability of Legendrian minimal submanifolds in Sasakian manifolds

Cited by 18 publications

References 13 publications

Second variation for L-minimal Legendrian submanifolds in pseudo-Sasakian manifolds

Second variation for L-minimal Legendrian submanifolds in pseudo-Sasakian manifolds

F-biharmonic maps into general Riemannian manifolds

Magnetic curves in the real special linear group

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