Almost Ricci–Yamabe soliton on contact metric manifolds

Almost Ricci–Yamabe soliton on contact metric manifolds

Purpose – This paper aims to study almost Ricci–Yamabe soliton in the context of certain contact metric manifolds. Design/methodology/approach – The paper is designed as follows: In Section 3, a complete contact metric manifold with the Reeb vector field ξ as an eigenvector of the Ricci operator adm...

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Bibliographic Details
Main Authors: Mohan Khatri, Jay Prakash Singh
Format: Article
Language:English
Published: Emerald Publishing 2025-01-01
Series:Arab Journal of Mathematical Sciences
Subjects:
Ricci soliton
Yamabe soliton
(k, μ)-Contact metric manifold
Ricci–Yamabe soliton
Contact geometry
Online Access:https://www.emerald.com/insight/content/doi/10.1108/AJMS-07-2022-0171/full/pdf
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Summary:Purpose – This paper aims to study almost Ricci–Yamabe soliton in the context of certain contact metric manifolds. Design/methodology/approach – The paper is designed as follows: In Section 3, a complete contact metric manifold with the Reeb vector field ξ as an eigenvector of the Ricci operator admitting almost Ricci–Yamabe soliton is considered. In Section 4, a complete K-contact manifold admits gradient Ricci–Yamabe soliton is studied. Then in Section 5, gradient almost Ricci–Yamabe soliton in non-Sasakian (k, μ)-contact metric manifold is assumed. Moreover, the obtained result is verified by constructing an example. Findings – We prove that if the metric g admits an almost (α, β)-Ricci–Yamabe soliton with α ≠ 0 and potential vector field collinear with the Reeb vector field ξ on a complete contact metric manifold with the Reeb vector field ξ as an eigenvector of the Ricci operator, then the manifold is compact Einstein Sasakian and the potential vector field is a constant multiple of the Reeb vector field ξ. For the case of complete K-contact, we found that it is isometric to unit sphere S2n+1 and in the case of (k, μ)-contact metric manifold, it is flat in three-dimension and locally isometric to En+1 × Sn(4) in higher dimension. Originality/value – All results are novel and generalizations of previously obtained results.
ISSN:1319-5166
2588-9214

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