Heisenberg群上Dirichlet外问题非负径向解的存在性

IF 2 3区数学 Q1 MATHEMATICS

Demonstratio Mathematica Pub Date : 2023-01-01 DOI:10.1515/dema-2022-0193

M. Jleli

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Here, λ ≥ 0 \\lambda \\ge 0 is a parameter, Δ H m {\\Delta }_{{{\\mathbb{H}}}^{m}} is the Kohn Laplacian on the Heisenberg group H m = R 2 m + 1 {{\\mathbb{H}}}^{m}={{\\mathbb{R}}}^{2m+1} , m > 1 m\\gt 1 , Q = 2 m + 2 Q=2m+2 , B 1 {B}_{1} is the unit ball in H m {{\\mathbb{H}}}^{m} , B 1 c {B}_{1}^{c} is the complement of B 1 {B}_{1} , and ψ ( q ) = ∣ z ∣ 2 r 2 ( q ) \\psi \\left(q)=\\frac{| z{| }^{2}}{{r}^{2}\\left(q)} . Namely, under certain conditions on K K and f f , we show that there exists a critical parameter λ ∗ ∈ ( 0 , ∞ ] {\\lambda }^{\\ast }\\in \\left(0,\\infty ] in the following sense. If 0 ≤ λ < λ ∗ 0\\le \\lambda \\lt {\\lambda }^{\\ast } , the above problem admits a unique nonnegative radial solution u λ {u}_{\\lambda } ; if λ ∗ < ∞ {\\lambda }^{\\ast }\\lt \\infty and λ ≥ λ ∗ \\lambda \\ge {\\lambda }^{\\ast } , the problem admits no nonnegative radial solution. 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引用次数: 1

摘要

摘要我们研究了B1c中ΔHmu（q）+λψ（q）K（r（q））f（r2−q（q），u（q）＝0的外部问题的非负径向解的存在与不存在性{B}_{1} ^｛c｝，在Dirichlet边界条件下，u＝0 u＝0，在{B}_{1} 和limr（q）→ ∞ u（q）=0｛\mathrm｛lim｝｝_｛r\left（q）\to\infty｝u \left（q）=0。这里，λ≥0\λ\ge 0是一个参数，ΔHm｛\Delta｝_｛｛\mathbb｛H｝｝^｛m｝}是海森堡群上的Kohn拉普拉斯算子Hm＝R2m+1｛\math bb｛H｝^｝m｝=｛\mattbb｛R｝｝^｛2m+1｝，m>1 m\gt 1，Q=2m+2 Q＝2m+2，B1{B}_{1} 是H m｛\mathbb｛H｝｝^｛m｝，B 1 c中的单位球{B}_{1} ^｛c｝是B1的补码{B}_{1} ，和ψ（q）=ŞzŞ2 r2（q）\psi\left（q）=\frac｛|z｛|｝^｛2｝｝｛r｝^｝\left。即，在K K和f f上的某些条件下，我们证明了在下列意义上存在一个临界参数λ*∈（0，∞）｛\lambda｝^｛\ast｝\in\left（0，\infty]）{u}_｛\lambda｝；如果λ*<∞｛\lambda｝^｛\last｝\lt\infty且λ≥λ*\lambda \ge｛\lang1033\lambda｝^｝，则该问题不存在非负径向解。当0≤λ<λ*0\le\lambda\lt｛\lambda｝^｛\sast｝时，一个收敛于uλ的数值算法{u}_λ的连续性{u}_｛\lambda｝关于λλ的行为，以及uλ的行为{u}_｛\lambda｝为λ→ ｛\lang1033λ*−\lang1033λ\到｛\llang1033λ｝^｛\ ast｝｝^｝｛-｝。此外，f（t，s）f（t、s）为s的行为的充分条件→ ∞ 获得了λ*=∞｛\lambda｝^｛\last｝=infty或λ*<∞｛\ lambda｝^｝\lt｝infty。我们的方法基于锥中的偏序方法和不动点理论。

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On the existence of nonnegative radial solutions for Dirichlet exterior problems on the Heisenberg group

Abstract We investigate the existence and nonexistence of nonnegative radial solutions to exterior problems of the form Δ H m u ( q ) + λ ψ ( q ) K ( r ( q ) ) f ( r 2 − 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 B 1 c {B}_{1}^{c} , under the Dirichlet boundary conditions u = 0 u=0 on ∂ B 1 \partial {B}_{1} and lim r ( q ) → ∞ u ( q ) = 0 {\mathrm{lim}}_{r\left(q)\to \infty }u\left(q)=0 . Here, λ ≥ 0 \lambda \ge 0 is a parameter, Δ H m {\Delta }_{{{\mathbb{H}}}^{m}} is the Kohn Laplacian on the Heisenberg group H m = R 2 m + 1 {{\mathbb{H}}}^{m}={{\mathbb{R}}}^{2m+1} , m > 1 m\gt 1 , Q = 2 m + 2 Q=2m+2 , B 1 {B}_{1} is the unit ball in H m {{\mathbb{H}}}^{m} , B 1 c {B}_{1}^{c} is the complement of B 1 {B}_{1} , and ψ ( q ) = ∣ z ∣ 2 r 2 ( q ) \psi \left(q)=\frac{| z{| }^{2}}{{r}^{2}\left(q)} . Namely, under certain conditions on K K and f f , we show that there exists a critical parameter λ ∗ ∈ ( 0 , ∞ ] {\lambda }^{\ast }\in \left(0,\infty ] in the following sense. If 0 ≤ λ < λ ∗ 0\le \lambda \lt {\lambda }^{\ast } , the above problem admits a unique nonnegative radial solution u λ {u}_{\lambda } ; if λ ∗ < ∞ {\lambda }^{\ast }\lt \infty and λ ≥ λ ∗ \lambda \ge {\lambda }^{\ast } , the problem admits no nonnegative radial solution. When 0 ≤ λ < λ ∗ 0\le \lambda \lt {\lambda }^{\ast } , a numerical algorithm that converges to u λ {u}_{\lambda } is provided and the continuity of u λ {u}_{\lambda } with respect to λ \lambda , as well as the behavior of u λ {u}_{\lambda } as λ → λ ∗ − \lambda \to {{\lambda }^{\ast }}^{-} , are studied. Moreover, sufficient conditions on the the behavior of f ( t , s ) f\left(t,s) as s → ∞ s\to \infty are obtained, for which λ ∗ = ∞ {\lambda }^{\ast }=\infty or λ ∗ < ∞ {\lambda }^{\ast }\lt \infty . Our approach is based on partial ordering methods and fixed point theory in cones.

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来源期刊

Demonstratio Mathematica MATHEMATICS-

CiteScore

2.40

自引率

5.00%

发文量

审稿时长

35 weeks

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