scientific article; zbMATH DE number 7756089
zbMath1526.35010MaRDI QIDQ6079201
Publication date: 27 October 2023
Full work available at URL: https://mathematicalanalysis.unibo.it/article/view/17275
Title: zbMATH Open Web Interface contents unavailable due to conflicting licenses.
regularityNeumann boundary conditionsfractional \(p\)-Laplaciansuperlinear problemsmixed local and fractional Laplacians
Variational methods involving nonlinear operators (47J30) Boundary value problems for second-order elliptic equations (35J25) Variational methods applied to PDEs (35A15) Boundary value problems for PDEs with pseudodifferential operators (35S15) Integral operators (47G10) Singular nonlinear integral equations (45G05) Quasilinear elliptic equations with (p)-Laplacian (35J92)
Cites Work
- Existence results for fractional \(p\)-Laplacian problems via Morse theory
- Nonlocal problems with Neumann boundary conditions
- Generalized cohomological index theories for Lie group actions with an application to bifurcation questions for Hamiltonian systems
- Best dispersal strategies in spatially heterogeneous environments: optimization of the principal eigenvalue for indefinite fractional Neumann problems
- Neumann conditions for the higher order \(s\)-fractional Laplacian \(( - \varDelta)^s u\) with \(s > 1\)
- Neumann fractional \(p\)-Laplacian: eigenvalues and existence results
- A priori estimates for the fractional \(p\)-Laplacian with nonlocal Neumann boundary conditions and applications
- Linking over cones for the Neumann fractional \(p\)-Laplacian
- Linking over cones and nontrivial solutions for \(p\)-Laplace equations with \(p\)-superlinear nonlinearity
- Weyl-type laws for fractional p-eigenvalue problems
- Wang’s multiplicity result for superlinear $(p,q)$–equations without the Ambrosetti–Rabinowitz condition
- Linear theory for a mixed operator with Neumann conditions
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