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748 results on '"Jleli Mohamed"'

1. On semilinear inequalities involving the Dunkl Laplacian and an inverse-square potential outside a ball

Author

Jleli Mohamed, Samet Bessem, and Vetro Calogero

Subjects
semilinear inequalities, dunkl operators, inverse-square potential, existence, nonexistence, critical exponent, 35r45, 35a01, 35b33, 35j91, Analysis, QA299.6-433
Abstract

Let Δk{\Delta }_{k} be the Dunkl generalized Laplacian operator associated with a root system RR of RN{{\mathbb{R}}}^{N}, N≥2N\ge 2, and a nonnegative multiplicity function kk defined on RR and invariant by the finite reflection group WW. In this study, we study the existence and nonexistence of weak solutions to the semilinear inequality −Δku+λ∣x∣2u≥∣u∣p-{\Delta }_{k}u+\frac{\lambda }{{| x| }^{2}}u\ge {| u| }^{p} in RN\B1¯{{\mathbb{R}}}^{N}\backslash \overline{{B}_{1}} under the boundary condition u≥0u\ge 0 on ∂B1\partial {B}_{1}, where p>1p\gt 1, λ≥−(N−2+2γ)2⁄4\lambda \ge -{(N-2+2\gamma )}^{2}/4, and B1{B}_{1} is the open unit ball of RN{{\mathbb{R}}}^{N}. Namely, we show that the dividing line with respect to existence and nonexistence is given by a critical exponent that depends on λ\lambda , NN, and γ(k)\gamma \left(k), where γ(k)=∑α∈R+k(α)\gamma \left(k)={\sum }_{\alpha \in {R}^{+}}k\left(\alpha ) and R+{R}^{+} is the positive subsystem.

Published
2024
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2. On a discrete version of Fejér inequality for α-convex sequences without symmetry condition

Author

Jleli Mohamed and Samet Bessem

Subjects
α-convex sequences, convex sequences, fejér-type inequalities, second-order difference equations, 26d15, 52a01, 39a06, Mathematics, QA1-939
Abstract

In this study, we introduce the notion of α\alpha -convex sequences which is a generalization of the convexity concept. For this class of sequences, we establish a discrete version of Fejér inequality without imposing any symmetry condition. In our proof, we use a new approach based on the choice of an appropriate sequence, which is the unique solution to a certain second-order difference equation. Moreover, we obtain a refinement of the standard (right) Fejér inequality for convex sequences.

Published
2024
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3. Extension of Fejér's inequality to the class of sub-biharmonic functions

Author

Jleli Mohamed

Subjects
fejér’s inequality, the hermite-hadamard inequality, convex function, sub-biharmonic function, 26a51, 26b25, 26d15, Mathematics, QA1-939
Abstract

Fejér’s integral inequality is a weighted version of the Hermite-Hadamard inequality that holds for the class of convex functions. To derive his inequality, Fejér [Über die Fourierreihen, II, Math. Naturwiss, Anz. Ungar. Akad. Wiss. 24 (1906), 369–390] assumed that the weight function is symmetric w.r.t. the midpoint of the interval. In this study, without assuming any symmetry condition on the weight function, Fejér’s inequality is extended to the class of sub-biharmonic functions, namely, the set of functions f∈C4(I)f\in {C}^{4}\left({\mathbb{I}}) satisfying f″″≤0{f}^{^{\prime\prime} ^{\prime\prime} }\le 0, where I{\mathbb{I}} is an interval of R{\mathbb{R}}. In the special case when the weight function is symmetric w.r.t. the midpoint of some interval, and the function ff is convex and sub-biharmonic, an interesting refinement of Fejér’s inequality is deduced. Moreover, this inequality is extended to a new class of functions defined on the plane, that we call the set of sub-biharmonic functions on the coordinates. Assuming in addition that the function is convex on the coordinates, a refinement of an inequality due to Dragomir [On the Hadamard’s inequality for convex functions on the co-ordinates in a rectangle from the plane, Taiwan. J. Math. 5 (2001), 775–788] is obtained.

Published
2024
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4. Hermite-Hadamard-type inequalities for generalized trigonometrically and hyperbolic ρ-convex functions in two dimension

Author

Dragomir Silvestru Sever, Jleli Mohamed, and Samet Bessem

Subjects
hermite-hadamard-type inequalities, trigonometrically ρ-convex functions, hyperbolic ρ-convex functions, bessel functions, 26b25, 26a51, 26d15, 35a23, Mathematics, QA1-939
Abstract

In this article, we establish Hermite-Hadamard-type inequalities for the two classes of functions X±λ(Ω)={f∈C2(Ω):Δf±λf≥0}{X}_{\pm \lambda }\left(\Omega )=\{f\in {C}^{2}\left(\Omega ):\Delta f\pm \lambda f\ge 0\}, where λ>0\lambda \gt 0 and Ω\Omega is an open subset of R2{{\mathbb{R}}}^{2}. We also obtain a characterization of the set X−λ(Ω){X}_{-\lambda }\left(\Omega ). Notice that in the one-dimensional case, if Ω=I\Omega =I (an open interval of R{\mathbb{R}}) and λ=ρ2\lambda ={\rho }^{2}, ρ>0\rho \gt 0, then Xλ(Ω){X}_{\lambda }\left(\Omega ) (resp. X−λ(Ω){X}_{-\lambda }\left(\Omega )) reduces to the class of functions f∈C2(I)f\in {C}^{2}\left(I) such that ff is trigonometrically ρ\rho -convex (resp. hyperbolic ρ\rho -convex) on II.

Published
2024
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5. On Fejér-type inequalities for generalized trigonometrically and hyperbolic k-convex functions

Author

Dragomir Silvestru Sever, Jleli Mohamed, and Samet Bessem

Subjects
generalized convexity, differential inequalities, trigonometrically k-convex functions, hyperbolic k-convex functions, fejér inequality, characterization, 26a51, 26d15, 34b09, Mathematics, QA1-939
Abstract

For μ∈C1(I)\mu \in {C}^{1}\left(I), μ>0\mu \gt 0, and λ∈C(I)\lambda \in C\left(I), where II is an open interval of R{\mathbb{R}}, we consider the set of functions f∈C2(I)f\in {C}^{2}\left(I) satisfying the second-order differential inequality ddtμdfdt+λf≥0\frac{{\rm{d}}}{{\rm{d}}t}\left(\phantom{\rule[-0.75em]{}{0ex}},\mu \frac{{\rm{d}}f}{{\rm{d}}t}\right)+\lambda f\ge 0 in II. The considered set includes several classes of generalized convex functions from the literature. In particular, if μ≡1\mu \equiv 1 and λ=k2\lambda ={k}^{2}, k>0k\gt 0, we obtain the class of trigonometrically kk-convex functions, while if μ≡1\mu \equiv 1 and λ=−k2\lambda =-{k}^{2}, k>0k\gt 0, we obtain the class of hyperbolic kk-convex functions. In this article, we establish a Fejér-type inequality for the introduced set of functions without any symmetry condition imposed on the weight function and discuss some special cases of weight functions. Moreover, we provide characterizations of the classes of trigonometrically and hyperbolic kk-convex functions.

Published
2024
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6. On discrete inequalities for some classes of sequences

Author

Jleli Mohamed and Samet Bessem

Subjects
discrete inequalities, convex sequences, convex matrices, fejér inequality, hermite-hadamard inequality, 26d15, 39a12, 40b05, Mathematics, QA1-939
Abstract

For a given sequence a=(a1,…,an)∈Rna=\left({a}_{1},\ldots ,{a}_{n})\in {{\mathbb{R}}}^{n}, our aim is to obtain an estimate of En≔a1+an2−1n∑i=1nai{E}_{n}:= \left|\hspace{-0.33em},\frac{{a}_{1}+{a}_{n}}{2}-\frac{1}{n}{\sum }_{i=1}^{n}{a}_{i},\hspace{-0.33em}\right|. Several classes of sequences are studied. For each class, an estimate of En{E}_{n} is obtained. We also introduce the class of convex matrices, which is a discrete version of the class of convex functions on the coordinates. For this set of matrices, new discrete Hermite-Hadamard-type inequalities are proved. Our obtained results are extensions of known results from the continuous case to the discrete case.

Published
2024
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7. Weighted Hermite-Hadamard-type inequalities without any symmetry condition on the weight function

Author

Jleli Mohamed and Samet Bessem

Subjects
hermite-hadamard inequality, fejér inequality, convex functions, numerical integration, 65d30, 26d15, Mathematics, QA1-939
Abstract

We establish weighted Hermite-Hadamard-type inequalities for some classes of differentiable functions without assuming any symmetry property on the weight function. Next, we apply our obtained results to the approximation of some classes of weighted integrals.

Published
2024
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8. On Hermite-Hadamard-type inequalities for systems of partial differential inequalities in the plane

Author

Jleli Mohamed and Samet Bessem

Subjects
systems of partial differential inequalities, hermite-hadamard-type inequalities, convex functions, convex functions on the coordinates, 26b25, 26d10, 35a23, Mathematics, QA1-939
Abstract

We establish necessary conditions for the existence of solutions to various systems of partial differential inequalities in the plane. The obtained conditions provide new Hermite-Hadamard-type inequalities for differentiable functions in the plane. In particular, we obtain a refinement of an inequality due to Dragomir [On the Hadamard’s inequality for convex functions on the co-ordinates in a rectangle from the plane, Taiwan. J. Math. 5 (2001), no. 4, 775–788] for convex functions on the coordinates.

Published
2023
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9. On the existence of nonnegative radial solutions for Dirichlet exterior problems on the Heisenberg group

Author

Jleli Mohamed

Subjects
exterior problem, heisenberg group, nonnegative radial solution, critical value, 35r03, 35a01, 34a12, 34b40, Mathematics, QA1-939
Abstract

We investigate the existence and nonexistence of nonnegative radial solutions to exterior problems of the form ΔHmu(q)+λψ(q)K(r(q))f(r2−Q(q),u(q))=0{\Delta }_{{{\mathbb{H}}}^{m}}u\left(q)+\lambda \psi \left(q)K\left(r\left(q))f\left({r}^{2-Q}\left(q),u\left(q))=0 in B1c{B}_{1}^{c}, under the Dirichlet boundary conditions u=0u=0 on ∂B1\partial {B}_{1} and limr(q)→∞u(q)=0{\mathrm{lim}}_{r\left(q)\to \infty }u\left(q)=0. Here, λ≥0\lambda \ge 0 is a parameter, ΔHm{\Delta }_{{{\mathbb{H}}}^{m}} is the Kohn Laplacian on the Heisenberg group Hm=R2m+1{{\mathbb{H}}}^{m}={{\mathbb{R}}}^{2m+1}, m>1m\gt 1, Q=2m+2Q=2m+2, B1{B}_{1} is the unit ball in Hm{{\mathbb{H}}}^{m}, B1c{B}_{1}^{c} is the complement of B1{B}_{1}, and ψ(q)=∣z∣2r2(q)\psi \left(q)=\frac{| z{| }^{2}}{{r}^{2}\left(q)}. Namely, under certain conditions on KK and ff, we show that there exists a critical parameter λ∗∈(0,∞]{\lambda }^{\ast }\in \left(0,\infty ] in the following sense. If 0≤λ

Published
2023
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11. Instantaneous blow-up of solutions to the Cauchy problem for the fractional Khokhlov-Zabolotskaya equation

Author

Jleli Mohamed

Subjects
nonlinear capacity, blow-up, fractional differential equations, 26a33, Mathematics, QA1-939
Abstract

In this paper, we consider the Cauchy problem for a second-order nonlinear equation with mixed fractional derivatives related to the fractional Khokhlov-Zabolotskaya equation. We prove the nonexistence of a classical local in time solution. The obtained instantaneous blow-up result is proved via the nonlinear capacity method.

Published
2020
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12. Blow-Up Results for Higher-Order Evolution Differential Inequalities in Exterior Domains

Author

Jleli Mohamed, Kirane Mokhtar, and Samet Bessem

Subjects
critical exponent, exterior domain, dependence on the initial data, differential inequalities, 35b33, 35b44, Mathematics, QA1-939
Abstract

We consider a higher-order evolution differential inequality in an exterior domain of ℝN{\mathbb{R}^{N}}, N≥3{N\geq 3}, with Dirichlet and Neumann boundary conditions. Using a unified approach, we obtain the critical exponents in the sense of Fujita for the considered problems. Moreover, the behavior of the solutions with respect to the initial data is discussed.

Published
2019
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13. Fixed point results for contractions of polynomial type

Author

Jleli, Mohamed, Pacurar, Cristina Maria, and Samet, Bessem

Subjects
Mathematics - General Topology
Abstract

We introduce two new classes of single-valued contractions of polynomial type defined on a metric space. For the first one, called the class of polynomial contractions, we establish two fixed point theorems. Namely, we first consider the case when the mapping is continuous. Next, we weaken the continuity condition. In particular, we recover Banach's fixed point theorem. The second class, called the class of almost polynomial contractions, includes the class of almost contractions introduced by Berinde [Nonlinear Analysis Forum. 9(1) (2004) 43--53]. A fixed point theorem is established for almost polynomial contractions. The obtained result generalizes that derived by Berinde in the above reference. Several examples showing that our generalizations are significant, are provided.

Published
2024

14. New directions in fixed point theory in $G$-metric spaces and applications to mappings contracting perimeters of triangles

Author

Jleli, Mohamed, Pacurar, Cristina Maria, and Samet, Bessem

Subjects
Mathematics - General Topology, 47H10, 54E50, 47S20
Abstract

We are concerned with the study of fixed points for mappings $T: X\to X$, where $(X,G)$ is a $G$-metric space in the sense of Mustafa and Sims. After the publication of the paper [Journal of Nonlinear and Convex Analysis. 7(2) (2006) 289--297] by Mustafa and Sims, a great interest was devoted to the study of fixed points in $G$-metric spaces. In 2012, the first and third authors observed that several fixed point theorems established in $G$-metric spaces are immediate consequences of known fixed point theorems in standard metric spaces. This observation demotivated the investigation of fixed points in $G$-metric spaces. In this paper, we open new directions in fixed point theory in $G$-metric spaces. Namely, we establish new versions of the Banach, Kannan and Reich fixed point theorems in $G$-metric spaces. We point out that the approach used by the first and third authors [Fixed Point Theory Appl. 2012 (2012) 1--7] is inapplicable in the present study. We also provide some interesting applications related to mappings contracting perimeters of triangles.

Published
2024

15. Higher-order evolution inequalities with Hardy potential on the Kor\'{a}nyi ball

Author

Jleli, Mohamed, Ruzhansky, Michael, Samet, Bessem, and Torebek, Berikbol T.

Subjects
Mathematics - Analysis of PDEs
Abstract

We consider a higher order in (time) semilinear evolution inequality posed on the Kor\'{a}nyi ball under an inhomogeneous Dirichlet-type boundary condition. The problem involves an inverse-square potential $\lambda/|\xi|_\mathbb{H}^2$, where $\lambda \geq -(Q-2)^2/4$ and a general weight function $V$ depending on the space variable in front of the power nonlinearity. We first establish a general nonexistence result for the considered problem. Next, in the special case $V(\xi):=|\xi|_\mathbb{H}^a$, $a\in \mathbb{R}$, we prove the sharpness of our nonexistence result and show that the problem admits three different critical behaviors according to the value of the parameter $\lambda$., Comment: 24 pages

Published
2024

16. Semilinear wave inequalities with double damping and potential terms on Riemannian Manifolds

Author

Jleli, Mohamed, Ruzhansky, Michael, Samet, Bessem, and Torebek, Berikbol T.

Subjects
Mathematics - Analysis of PDEs
Abstract

We study a semilinear wave inequality with double damping on a complete noncompact Riemannian manifold. The considered problem involves a potential function $V$ depending on the space variable in front of the power nonlinearity and an inhomogeneous term $W$ depending on both time and space variables. Namely, we establish sufficient conditions for the nonexistence of weak solutions in both cases: $W\equiv 0$ and $W\not\equiv 0$. The obtained conditions depend on the parameters of the problem as well as the geometry of the manifold. Some special cases of manifolds, and of $V$ and $W$ are discussed in detail., Comment: 21 pages

Published
2023

20. The role of convection in the limit shape of the critical front profile for Born-Infeld diffusion models

Author

Garrione, Maurizio, Jleli, Mohamed, and Samet, Bessem

Subjects
Mathematics - Analysis of PDEs, Mathematics - Classical Analysis and ODEs, Mathematics - Dynamical Systems
Abstract

In this paper, we deal with models with Born-Infeld type diffusion and monostable reaction, investigating the effect of the introduction of a convection term on the limit shape of the critical front profile for vanishing diffusion. We first provide an estimate of the critical speed and then, through a careful analysis of an equivalent first-order problem, we show that different convection terms may lead either to a complete sharpening of the limit profile or to its complete regularization, presenting some related numerical simulations.

Published
2023

22. Nonexistence for parabolic differential inequalities with convection terms in exterior domains

Author

Jleli, Mohamed, Samet, Bessem, and Sun, Yuhua

Subjects
Mathematics - Analysis of PDEs
Abstract

We are concerned with the nonexistence of sign-changing global weak solutions for a class of semilinear parabolic differential inequalities with convection terms in exterior domains. A weight function of the form $t^\alpha |x|^\sigma$ is considered in front of the power nonlinearity. Two types of non-homogeneous boundary conditions are investigated: Neumann-type and Dirichlet-type boundary conditions. Using a unified approach, for each case, we establish sufficient criteria for the nonexistence of global weak solutions. When $\alpha=0$, the critical exponent in the sense of Fujita is obtained. This exponent is bigger than that found previously by Zheng and Wang (2008) in the case of homogeneous Neumann and Dirichlet boundary conditions.

Published
2022

23. On the absence of global weak solutions for a nonlinear time-fractional Schr\'odinger equation

Author

Alotaibi, Munirah, Jleli, Mohamed, Ragusa, Maria Alessandra, and Samet, Bessem

Subjects
Mathematics - Analysis of PDEs, 35B44, 35B33, 26A33
Abstract

In this paper, an initial value problem for a nonlinear time-fractional Schr\"odinger equation with a singular logarithmic potential term is investigated. The considered problem involves the left/forward Hadamard-Caputo fractional derivative with respect to the time variable. Using the test function method with a judicious choice of the test function, we obtain sufficient criteria for the absence of global weak solutions.

Published
2022

25. Liouville-type theorems for sign-changing solutions to nonlocal elliptic inequalities and systems with variable-exponent nonlinearities

Author

Fino, Ahmad Z., Jleli, Mohamed, and Samet, Bessem

Subjects
Mathematics - Analysis of PDEs, 35R11, 35B53, 35B33
Abstract

We consider the fractional elliptic inequality with variable-exponent nonlinearity $$ (-\Delta)^{\frac{\alpha}{2}} u+\lambda\, \Delta u \geq |u|^{p(x)}, \quad x\in\mathbb{R}^N, $$ where $N\geq 1$, $\alpha\in (0,2)$, $\lambda\in\mathbb{R}$ is a constant, $p: \mathbb{R}^N\to (1,\infty)$ is a measurable function, and $(-\Delta)^{\frac{\alpha}{2}}$ is the fractional Laplacian operator of order $\frac{\alpha}{2}$. A Liouville-type theorem is established for the considered problem. Namely, we obtain sufficient conditions under which the only weak solution is the trivial one. Next, we extend our study to systems of fractional elliptic inequalities with variable-exponent nonlinearities. Besides the consideration of variable-exponent nonlinearities, the novelty of this work consists in investigating sign-changing solutions to the considered problems. Namely, to the best of our knowledge, only nonexistence results of positive solutions to fractional elliptic problems were invetigated previously. Our approach is based on the nonlinear capacity method combined with a pointwise estimate of the fractional Laplacian of some test functions, which was derived by Fujiwara (2018) (see also Dao and Reissig (2019)). Note that the standard nonlinear capacity method cannot be applied to the considered problems due to the change of sign of solutions.

Published
2020

26. Blow-up and global existence for semilinear parabolic systems with space-time forcing terms

Author

Fino, Ahmad Z., Jleli, Mohamed, and Samet, Bessem

Subjects
Mathematics - Analysis of PDEs, 34A34, 35A01, 35B44
Abstract

We investigate the local existence, finite time blow-up and global existence of sign-changing solutions to the inhomogeneous parabolic system with space-time forcing terms $$ u_t-\Delta u =|v|^{p}+t^\sigma w_1(x),\,\, v_t-\Delta v =|u|^{q}+t^\gamma w_2(x),\,\, (u(0,x),v(0,x))=(u_0(x),v_0(x)), $$ where $t>0$, $x\in \mathbb{R}^N$, $N\geq 1$, $p,q>1$, $\sigma,\gamma>-1$, $\sigma,\gamma\neq0$, $w_1,w_2\not\equiv0$, and $u_0,v_0\in C_0(\mathbb{R}^N)$. For the finite time blow-up, two cases are discussed under the conditions $w_i\in L^1(\mathbb{R}^N)$ and $\int_{\mathbb{R}^N} w_i(x)\,dx>0$, $i=1,2$. Namely, if $\sigma>0$ or $\gamma>0$, we show that the (mild) solution $(u,v)$ to the considered system blows up in finite time, while if $\sigma,\gamma\in(-1,0)$, then a finite time blow-up occurs when $\frac{N}{2}< \max\left\{\frac{(\sigma+1)(pq-1)+p+1}{pq-1},\frac{(\gamma+1)(pq-1)+q+1}{pq-1}\right\}$. Moreover, if $\frac{N}{2}\geq \max\left\{\frac{(\sigma+1)(pq-1)+p+1}{pq-1},\frac{(\gamma+1)(pq-1)+q+1}{pq-1}\right\}$, $p>\frac{\sigma}{\gamma}$ and $q>\frac{\gamma}{\sigma}$, we show that the solution is global for suitable initial values and $w_i$, $i=1,2$.

Published
2020
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29. Critical behavior for a semilinear parabolic equation with forcing term depending of time and space

Author

Jleli, Mohamed, Kawakami, Tatsuki, and Samet, Bessem

Subjects
Mathematics - Analysis of PDEs
Abstract

We investigate the large-time behavior of the sign-changing solution of the inhomogeneous semilinear heat equation with a forcing term depending of time and space. we identify the critical exponent for this problem, which separates the nonexistence/existence of global-in-time solutions, and show the discontinuity of this critical exponent at the point which the inhomogeneous term becomes independent of time variable.

Published
2019

30. Nonexistence results for a higher-order evolution equation with an inhomogeneous term depending on time and space

Author

Jleli, Mohamed, Lai, Ning-An, and Samet, Bessem

Subjects
Mathematics - Analysis of PDEs
Abstract

We consider a higher-order evolution equation with an inhomogeneous term depending on time and space. We first derive a general criterion for the nonexistence of weak solutions. Next, we study the particular case when the inhomogeneity depends only on space. In that case, we obtain the first critical exponent in the sense of Fujita, as well as the second critical exponent in the sense of Lee and Ni., Comment: 10 pages

Published
2019

31. Discontinuous critical Fujita exponents for the heat equation with combined nonlinearities

Author

Jleli, Mohamed, Samet, Bessem, and Souplet, Philippe

Subjects
Mathematics - Analysis of PDEs
Abstract

We consider the nonlinear heat equation $u_t-\Delta u =|u|^p+b |\nabla u|^q$ in $(0,\infty)\times \R^n$, where $n\geq 1$, $p>1$, $q\geq 1$ and $b>0$. First, we focus our attention on positive solutions and obtain an optimal Fujita-type result: any positive solution blows up in finite time if $p\leq 1+\frac{2}{n}$ or $q\leq 1+\frac{1}{n+1}$, while global classical positive solutions exist for suitably small initial data when $p>1+\frac{2}{n}$ and $q> 1+\frac{1}{n+1}$. Although finite time blow-up cannot be produced by the gradient term alone and should be considered as an effect of the source term $|u|^p$, this result shows that the gradient term induces an interesting phenomenon of discontinuity of the critical Fujita exponent, jumping from $p=1+\frac{2}{n}$ to $p=\infty$ as $q$ reaches the value $1+\frac{1}{n+1}$ from above. Next, we investigate the case of sign-changing solutions and show that if $p\le 1+\frac{2}{n}$ or $0<(q-1)(np-1)\le 1$, then the solution blows up in finite time for any nontrivial initial data with nonnegative mean. Finally, a Fujita-type result, with a different critical exponent, is % also obtained for sign-changing solutions to the inhomogeneous version of this problem., Comment: 12 pages

Published
2019

32. Critical criteria of Fujita type for a system of inhomogeneous wave inequalities in exterior domains

Author

Jleli, Mohamed, Samet, Bessem, and Ye, Dong

Subjects
Mathematics - Analysis of PDEs
Abstract

We consider blow-up results for a system of inhomogeneous wave inequalities in exterior domains. We will handle three type boundary conditions: Dirichlet type, Neumann type and mixed boundary conditions. We use a unified approach to show the optimal criteria of Fujita type for each case. Our study yields naturally optimal nonexistence results for the corresponding stationary wave system and equation. We provide many new results and close some open questions.

Published
2019

35. On a new generalization of metric spaces

Author

Jleli, Mohamed and Samet, Bessem

Subjects
Mathematics - General Topology, 54E50, 54A20, 47H10
Abstract

In this paper, we introduce the $\mathcal{F}$-metric space concept, which generalizes the metric space notion. We define a natural topology $\tau_{\mathcal{F}}$ in such spaces and we study their topological properties. Moreover, we establish a new version of the Banach contraction principle in the setting of $\mathcal{F}$-metric spaces. Several examples are presented to illustrate our study.

Published
2018

37. On new types of fractional operators and applications

Author

Jleli, Mohamed and Samet, Bessem

Subjects
Mathematics - Classical Analysis and ODEs, 26A33, 34A08
Abstract

We introduce two kinds of fractional integral operators; the one is defined via the exponential-integral function $$ E_1(x)=\int_x^\infty \frac{e^{-t}}{t}\,dt,\quad x>0, $$ and the other is defined via the special function $$ \mathcal{S}(x)=e^{-x} \int_0^\infty \frac{x^{s-1}}{\Gamma(s)}\,ds,\quad x>0. $$ We establish different properties of these operators, and we study the relationship between the fractional integrals of first kind and the fractional integrals of second kind. Next, we introduce a new concept of fractional derivative of order $\alpha>0$, which is defined via the fractional integral of first kind. Using an approximate identity argument, we show that the introduced fractional derivative converges to the standard derivative in $L^1$ space, as $\alpha\to 0^+$. Several other properties are studied, like fractional integration by parts, the relationship between this fractional derivative and the fractional integral of second kind, etc. As an application, we consider a new fractional model of the relaxation equation, we establish an existence and uniqueness result for this model, and provide an iterative algorithm that converges to the solution., Comment: arXiv admin note: text overlap with arXiv:1802.02602

Published
2018

38. A derivative concept with respect to an arbitrary kernel and applications to fractional calculus

Author

Jleli, Mohamed, Kirane, Mokhtar, and Samet, Bessem

Subjects
Mathematics - Classical Analysis and ODEs
Abstract

In this paper, we propose a new concept of derivative with respect to an arbitrary kernel-function. Several properties related to this new operator, like inversion rules, integration by parts, etc. are studied. In particular, we introduce the notion of conjugate kernels, which will be useful to guaranty that the proposed derivative operator admits a right inverse. The proposed concept includes as special cases Riemann-Liouville fractional derivatives, Hadamard fractional derivatives, and many other fractional operators. Moreover, using our concept, new fractional operators involving certain special functions are introduced, and some of their properties are studied. Finally, an existence result for a boundary value problem involving the introduced derivative operator is proved.

Published
2018
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39. On the absence of weak solutions for a sequential time-fractional Klein–Gordon equation with quadratic nonlinearity.

Author

Agarwal, Praveen, Jleli, Mohamed, and Samet, Bessem

Subjects
*CAPUTO fractional derivatives, *QUADRATIC equations, *TEST methods, *GEOMETRY, *EQUATIONS, *SINE-Gordon equation
Abstract

The Klein–Gordon equation with quadratic nonlinearity is frequently used to model various problems of physics. On the other hand, it was shown that in many situations, the use of fractional derivatives instead of ordinary derivatives provides more realistic models. In this work, a one-dimensional sequential time-fractional Klein–Gordon equation posed on a bounded interval, subject to certain initial and boundary conditions, is investigated. The fractional derivatives are considered in the Caputo sense and a weight function h > 0 is allowed in front of the quadratic nonlinearity. Namely, we first establish general sufficient conditions for the nonexistence of solutions. Next, some particular cases of weight functions h are discussed. In our approach, we make use of the test function method. This method requires an appropriate choice of a family of test functions. In this paper, we make a judicious choice of test functions taking into consideration the nonlocal property of the Caputo fractional derivative, the initial and boundary conditions, and the geometry of the domain. [ABSTRACT FROM AUTHOR]

Published
2025
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40. Nonlinear Liouville-type theorem for a differential inequality involving Dunkl-Baouendi-Grushin operator.

Author

Jleli, Mohamed and Samet, Bessem

Subjects
LAPLACIAN operator, DIFFERENTIAL inequalities, FINITE groups, MULTIPLICITY (Mathematics)
Abstract

Let $ R_i $, $ i = 1,2 $, be a root system in $ {\mathbb{R}}^{N_i}\backslash\{0\} $, $ N_i\geq 1 $, $ W_i = W(R_i) $ be the associated finite reflection group, and $ k_i: R_i\to [0,\infty) $ be a multiplicity function, i.e. $ k_i $ is $ W_i $-invariant. For $ \ell\geq 0 $, we introduce the operator $ L_{\ell,k_1,k_2} $ defined by$ L_{\ell,k_1,k_2}u(x,y) = \Delta_{k_1}u(x,y)+|x|^{2\ell}\Delta_{k_2}u(x,y),\,\,(x,y)\in {\mathbb{R}}^{N_1}\times {\mathbb{R}}^{N_2}, $where $ \Delta_{k_i} $ is the Dunkl Laplacian operator associated with $ R_i $ and $ k_i $. Our goal in this paper is to establish a Liouville-type result for the semilinear inequality$ -L_{\ell,k_1,k_2}u\geq |u|^p,\,\, (x,y)\in {\mathbb{R}}^{N_1}\times {\mathbb{R}}^{N_2}, $where $ u = u(x,y) $ and $ p>1 $. [ABSTRACT FROM AUTHOR]

Published
2025
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41. Extended Weyl fractional integrals and their inequalities

Author

Agarwal, Praveen, Jleli, Mohamed, and Qi, Feng

Subjects
Mathematics - Analysis of PDEs
Abstract

In the paper, the authors establish some interesting identities and inequalities involving the extended Weyl type fractional integrals., Comment: Due to typing mistakes

Published
2017

42. Certain Ostrowski type inequalities for generalized s-convex functions

Author

Tomar, Muharrem, Agarwal, Praveen, and Jleli, Mohamed

Subjects
Mathematics - Analysis of PDEs
Abstract

In this paper, we first obtain a generalized integral identity for twice local differentiable functions. Then, using functions whose second derivatives in absolute value at certain powers are generalized s convex in the second sense, we obtain some new Ostrowski type inequalities.

Published
2017

43. An Extended k-type Hypergeometric Functions

Author

Agarwal, Praveen and Jleli, Mohamed

Subjects
Mathematics - Classical Analysis and ODEs
Abstract

Hypergeometric functions and their generalizations play an important r\^{o}les in diverse applications. Many authors have been established generalizations of hypergeometric functions by a number ways. In this paper, we aim at establishing (presumably new) extended $k-$type hypergeometric function $_{2}f_{1}^{k}[a, b; c; \omega; z]$ and study various properties including integral representations, differential formulas and fractional integral and derivative formula., Comment: no novelty

Published
2017

49. Fujita critical exponent for hyperbolic‐type inequalities with mixed nonlinearities on the half space.

Author

Jleli, Mohamed, Nashed, M. Zuhair, and Samet, Bessem

Abstract

We consider the nonlinear hyperbolic‐type inequality ∂ttu−Δu≥|u|p+|∇u|q+w(x),(t,x)∈(0,∞)×ℝ+N$$ {\partial}_{tt}u-\Delta u\ge {\left|u\right|}^p+{\left|\nabla u\right|}^q+w(x),\left(t,x\right)\in \left(0,\infty \right)\times {\mathbb{R}}_{+}^N $$under the Dirichlet‐type boundary condition u(t,x′,0)≥0,(t,x′)∈(0,∞)×ℝN−1,$$ u\left(t,{x}^{\prime },0\right)\ge 0,\left(t,{x}^{\prime}\right)\in \left(0,\infty \right)\times {\mathbb{R}}^{N-1}, $$where N≥2,p,q>1$$ N\ge 2,p,q>1 $$, and w≥0$$ w\ge 0 $$. An optimal Fujita‐type result is obtained for this problem. Namely, we prove that when w$$ w $$ belongs to a certain functional space W$$ W $$, and p<1+2N−1$$ p<1+\frac{2}{N-1} $$ or q<1+1N$$ q<1+\frac{1}{N} $$, then there exists no global weak solution, while global solutions exist for some w∈W$$ w\in W $$ when p>1+2N−1$$ p>1+\frac{2}{N-1} $$ and q>1+1N$$ q>1+\frac{1}{N} $$. The obtained result shows an interesting phenomenon of discontinuity of the Fujita critical exponent, jumping from p=1+2N−1$$ p=1+\frac{2}{N-1} $$ to p=∞$$ p=\infty $$ as q$$ q $$ reaches the value 1+1N$$ 1+\frac{1}{N} $$ from above. [ABSTRACT FROM AUTHOR]

Published
2024
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50. Nonexistence for a time-fractional damped wave equation in an annulus.

Author

Jleli, Mohamed and Samet, Bessem

Subjects
SENSES
Abstract

A semilinear time-fractional damped wave equation posed in an annulus domain of $ {\mathbb{R}}^N $ ($ N\geq 3 $) is considered under a homogeneous Dirichlet boundary condition. The fractional derivatives in time are taken in the Caputo sense. A general weight function depending on both time and space is allowed in front of the power nonlinearity. By means of the nonlinear capacity method, necessary conditions for the existence of weak solutions are established. [ABSTRACT FROM AUTHOR]

Published
2024
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