{"title":"分式反应扩散方程在 $$\\mathbb {R}^{N}$$ 上全局存在解的必要条件和充分条件","authors":"Soon-Yeong Chung, Jaeho Hwang","doi":"10.1007/s13540-024-00310-3","DOIUrl":null,"url":null,"abstract":"<p>A necessary and sufficient condition for the existence or nonexistence of global solutions to the following fractional reaction-diffusion equations </p><span>$$\\begin{aligned} {\\left\\{ \\begin{array}{ll} u_{t}=\\Delta _{\\alpha } u + \\psi (t)f(u),\\,\\,&{} \\text{ in } \\mathbb {R}^{N}\\times (0,\\infty ),\\\\ u(\\cdot ,0)=u_{0}\\ge 0,\\,\\,&{} \\text{ in } \\mathbb {R}^{N}, \\end{array}\\right. } \\end{aligned}$$</span><p>has not been known and remained as an open problem for a few decades, where <span>\\(N\\ge 2\\)</span>, <span>\\(\\Delta _{\\alpha }=-\\left( -\\Delta \\right) ^{\\alpha /2}\\)</span> denotes the fractional Laplace operator with <span>\\(0<\\alpha \\le 2\\)</span>, <span>\\(\\psi \\)</span> is a nonnegative and continuous function, and <i>f</i> is a convex function. The purpose of this paper is to resolve this problem completely as follows: </p><span>$$\\begin{aligned} \\begin{aligned}&\\text{ There } \\text{ is } \\text{ a } \\text{ global } \\text{ solution } \\text{ to } \\text{ the } \\text{ equation } \\text{ if } \\text{ and } \\text{ only } \\text{ if }\\\\&\\hspace{20mm}\\int _{1}^{\\infty }\\psi (t)t^{\\frac{N}{\\alpha }}f\\left( \\epsilon \\, t^{-\\frac{N}{\\alpha }}\\right) dt<\\infty ,\\\\&\\text{ for } \\text{ some } \\epsilon >0. \\end{aligned} \\end{aligned}$$</span>","PeriodicalId":48928,"journal":{"name":"Fractional Calculus and Applied Analysis","volume":"76 1","pages":""},"PeriodicalIF":2.5000,"publicationDate":"2024-07-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"A necessary and sufficient conditions for the global existence of solutions to fractional reaction-diffusion equations on $$\\\\mathbb {R}^{N}$$\",\"authors\":\"Soon-Yeong Chung, Jaeho Hwang\",\"doi\":\"10.1007/s13540-024-00310-3\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>A necessary and sufficient condition for the existence or nonexistence of global solutions to the following fractional reaction-diffusion equations </p><span>$$\\\\begin{aligned} {\\\\left\\\\{ \\\\begin{array}{ll} u_{t}=\\\\Delta _{\\\\alpha } u + \\\\psi (t)f(u),\\\\,\\\\,&{} \\\\text{ in } \\\\mathbb {R}^{N}\\\\times (0,\\\\infty ),\\\\\\\\ u(\\\\cdot ,0)=u_{0}\\\\ge 0,\\\\,\\\\,&{} \\\\text{ in } \\\\mathbb {R}^{N}, \\\\end{array}\\\\right. } \\\\end{aligned}$$</span><p>has not been known and remained as an open problem for a few decades, where <span>\\\\(N\\\\ge 2\\\\)</span>, <span>\\\\(\\\\Delta _{\\\\alpha }=-\\\\left( -\\\\Delta \\\\right) ^{\\\\alpha /2}\\\\)</span> denotes the fractional Laplace operator with <span>\\\\(0<\\\\alpha \\\\le 2\\\\)</span>, <span>\\\\(\\\\psi \\\\)</span> is a nonnegative and continuous function, and <i>f</i> is a convex function. The purpose of this paper is to resolve this problem completely as follows: </p><span>$$\\\\begin{aligned} \\\\begin{aligned}&\\\\text{ There } \\\\text{ is } \\\\text{ a } \\\\text{ global } \\\\text{ solution } \\\\text{ to } \\\\text{ the } \\\\text{ equation } \\\\text{ if } \\\\text{ and } \\\\text{ only } \\\\text{ if }\\\\\\\\&\\\\hspace{20mm}\\\\int _{1}^{\\\\infty }\\\\psi (t)t^{\\\\frac{N}{\\\\alpha }}f\\\\left( \\\\epsilon \\\\, t^{-\\\\frac{N}{\\\\alpha }}\\\\right) dt<\\\\infty ,\\\\\\\\&\\\\text{ for } \\\\text{ some } \\\\epsilon >0. \\\\end{aligned} \\\\end{aligned}$$</span>\",\"PeriodicalId\":48928,\"journal\":{\"name\":\"Fractional Calculus and Applied Analysis\",\"volume\":\"76 1\",\"pages\":\"\"},\"PeriodicalIF\":2.5000,\"publicationDate\":\"2024-07-01\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Fractional Calculus and Applied Analysis\",\"FirstCategoryId\":\"100\",\"ListUrlMain\":\"https://doi.org/10.1007/s13540-024-00310-3\",\"RegionNum\":2,\"RegionCategory\":\"数学\",\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"Q1\",\"JCRName\":\"MATHEMATICS\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Fractional Calculus and Applied Analysis","FirstCategoryId":"100","ListUrlMain":"https://doi.org/10.1007/s13540-024-00310-3","RegionNum":2,"RegionCategory":"数学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"MATHEMATICS","Score":null,"Total":0}
引用次数: 0
摘要
以下分数反应扩散方程全局解存在与否的必要条件 $$\begin{aligned} {\left\{ \begin{array}{ll} u_{t}=\Delta _{\alpha } u + \psi (t)f(u),\,\,&{}\text{ in }\times (0,\infty ),\ u(\cdot ,0)=u_{0}\ge 0,\,\,&{}\text{ in }\mathbb {R}^{N}, end{array}\right.}\end{aligned}$has not been known and remained as an open problem for a few decades, where \(N\ge 2\), \(\Delta _{\alpha }=-\left( -\Delta \right) ^{\alpha /2}\) denotes the fractional Laplace operator with \(0<\alpha \le 2\), \(\psi \) is a nonnegative and continuous function, and f is a convex function.本文旨在彻底解决这一问题,具体如下:$$\begin{aligned}\begin{aligned}&\text{ There }\是\(text{ a }\Global }\(解决方案)\to }\是一个\text{ equation }\if }\and }\only }\if }\&hspace{20mm}int _{1}^{infty }\psi (t)t^{frac{N}{alpha }}f\left( \epsilon \, t^{-\frac{N}{alpha }}\right) dt<\infty ,\&\text{ for }\(text{ some }\epsilon >0.\end{aligned}\end{aligned}$$
A necessary and sufficient conditions for the global existence of solutions to fractional reaction-diffusion equations on $$\mathbb {R}^{N}$$
A necessary and sufficient condition for the existence or nonexistence of global solutions to the following fractional reaction-diffusion equations
$$\begin{aligned} {\left\{ \begin{array}{ll} u_{t}=\Delta _{\alpha } u + \psi (t)f(u),\,\,&{} \text{ in } \mathbb {R}^{N}\times (0,\infty ),\\ u(\cdot ,0)=u_{0}\ge 0,\,\,&{} \text{ in } \mathbb {R}^{N}, \end{array}\right. } \end{aligned}$$
has not been known and remained as an open problem for a few decades, where \(N\ge 2\), \(\Delta _{\alpha }=-\left( -\Delta \right) ^{\alpha /2}\) denotes the fractional Laplace operator with \(0<\alpha \le 2\), \(\psi \) is a nonnegative and continuous function, and f is a convex function. The purpose of this paper is to resolve this problem completely as follows:
$$\begin{aligned} \begin{aligned}&\text{ There } \text{ is } \text{ a } \text{ global } \text{ solution } \text{ to } \text{ the } \text{ equation } \text{ if } \text{ and } \text{ only } \text{ if }\\&\hspace{20mm}\int _{1}^{\infty }\psi (t)t^{\frac{N}{\alpha }}f\left( \epsilon \, t^{-\frac{N}{\alpha }}\right) dt<\infty ,\\&\text{ for } \text{ some } \epsilon >0. \end{aligned} \end{aligned}$$
期刊介绍:
Fractional Calculus and Applied Analysis (FCAA, abbreviated in the World databases as Fract. Calc. Appl. Anal. or FRACT CALC APPL ANAL) is a specialized international journal for theory and applications of an important branch of Mathematical Analysis (Calculus) where differentiations and integrations can be of arbitrary non-integer order. The high standards of its contents are guaranteed by the prominent members of Editorial Board and the expertise of invited external reviewers, and proven by the recently achieved high values of impact factor (JIF) and impact rang (SJR), launching the journal to top places of the ranking lists of Thomson Reuters and Scopus.
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