Bifurcation curve for the Minkowski-curvature equation with concave or geometrically concave nonlinearity

IF 1.7 4区 数学 Q1 Mathematics Boundary Value Problems Pub Date : 2024-08-06 DOI:10.1186/s13661-024-01906-7
Kuo-Chih Hung
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Abstract

We study the bifurcation curve and exact multiplicity of positive solutions in the space $C^{2}\left ( (-L,L)\right ) \cap C\left ( [-L,L]\right ) $ for the Minkowski-curvature equation $$ \left \{ \textstyle\begin{array}{l} -\left ( \dfrac{u^{\prime }(x)}{\sqrt{1-\left ( {u^{\prime }(x)}\right ) ^{2}}}\right ) ^{\prime }=\lambda f(u),\text{\ \ }-L< x< L, \\ u(-L)=u(L)=0.\end{array}\displaystyle \right . $$ where $\lambda >0$ is a bifurcation parameter, $f\in C[0,\infty )\cap C^{2}(0,\infty )$ satisfies $f(u)>0$ for $u>0$ and f is either concave or geometrically concave on $(0,\infty )$ . If f is a concave function, we prove that the bifurcation curve is monotone increasing on the $(\lambda ,\left \Vert u\right \Vert _{\infty })$ -plane. If f is a geometrically concave function, we prove that the bifurcation curve is either ⊂-shaped or monotone increasing on the $(\lambda ,\left \Vert u\right \Vert _{\infty })$ -plane under a mild condition. Some interesting applications are given.
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具有凹或几何凹非线性的闵科夫斯基-曲率方程的分岔曲线
我们研究了闵科夫斯基曲率方程 $$ C^{2}\left ( (-L,L)\right ) 空间中正解的分岔曲线和精确多重性。\cap C\left ( [-L,L]\right ) $ 用于闵科夫斯基曲率方程 $$ \left \{ \textstyle\begin{array}{l} -\left ( \dfrac{u^{\prime }(x)}{sqrt{1-\left ( {u^{\prime }(x)}\right )^{2}}}\right )^{{prime }=\lambda f(u),\text{\ }-L< x< L, \ u(-L)=u(L)=0.\end{array}\displaystyle \right .$$ 其中 $\lambda >0$ 是一个分岔参数,$f\in C[0,\infty )\cap C^{2}(0,\infty )$ 满足 $f(u)>0$ for $u>0$ 并且 f 在 $(0,\infty )$ 上要么是凹函数要么是几何凹函数。如果 f 是凹函数,我们证明分岔曲线在 $(\lambda ,\left \Vert u\right \Vert _\{infty })$ 平面上是单调递增的。如果 f 是一个几何凹函数,我们证明在一个温和的条件下,分岔曲线在 $(\lambda ,\left \Vert u\right \Vert _{\infty })$ - 平面上要么是 ⊂ 形的,要么是单调递增的。文中给出了一些有趣的应用。
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来源期刊
Boundary Value Problems
Boundary Value Problems MATHEMATICS, APPLIED-MATHEMATICS
CiteScore
3.00
自引率
5.90%
发文量
83
审稿时长
4 months
期刊介绍: The main aim of Boundary Value Problems is to provide a forum to promote, encourage, and bring together various disciplines which use the theory, methods, and applications of boundary value problems. Boundary Value Problems will publish very high quality research articles on boundary value problems for ordinary, functional, difference, elliptic, parabolic, and hyperbolic differential equations. Articles on singular, free, and ill-posed boundary value problems, and other areas of abstract and concrete analysis are welcome. In addition to regular research articles, Boundary Value Problems will publish review articles.
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