在半平面上绝对收敛的狄利克雷级数的某一子类

Q3 Mathematics Matematychni Studii Pub Date : 2022-03-31 DOI:10.30970/ms.57.1.32-44
M. Sheremeta
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It is provedthat $F\\in \\mathfrak{DF}_h(l,\\alpha)$ if and only if $ \\sum_{k=1}^{\\infty}(h+l\\lambda_k)f_k\\le h-\\alpha$, and$F\\in \\mathfrak{DG}_h(l,\\alpha)$ if and only if $\\sum_{k=1}^{\\infty}(h+l\\lambda_k)(\\lambda_k+h)f_k\\le h(h-\\alpha)$. \nIf $F_j\\in \\mathfrak{DF}_h(l_j,\\alpha_j)$, $j=1, 2$, where $l_j\\ge0$ and $0\\le \\alpha_j<h$, then Hadamard composition$(F_1*F_2)\\in \\mathfrak{D}F_h(l,\\alpha)$, where $l=\\min\\{l_1,l_2\\}$ and$\\alpha=h-\\frac{(h-\\alpha_1)(h-\\alpha_2)}{h+l\\lambda_1}$. Similar statement is correct for the class $F_j\\in \\mathfrak{DG}_h(l,\\alpha)$. \nFor $j>0$ and $\\delta>0$ the neighborhood of the function $F\\in \\mathfrak{D}_0$ is defined as follows$O_{j,\\delta}(F)=\\{G(s)=e^{s}-\\sum_{k=1}^{\\infty}g_k\\exp\\{s\\lambda_k\\}\\in \\mathfrak{D}_0\\colon \\sum_{k=1}^{\\infty}\\lambda^j_k|g_k-f_k|\\le\\delta\\}$. It is described the neighborhoods of functions from classes $\\mathfrak{DF}_h(l,\\alpha)$ and $\\mathfrak{DG}_h(l,\\alpha)$. \nConditions on real parameters $\\gamma_0,\\,\\gamma_1,\\,\\gamma_2,\\,a_1$ and $a_2$ of the differential equation $w''+(\\gamma_0e^{2hs}+\\gamma_1e^{hs}+\\gamma_2) w=a_1e^{hs}+a_2e^{2hs}$ are found, under which this equation has a solutioneither in $\\mathfrak{DF}_h(l,\\alpha)$ or in $\\mathfrak{DG}_h(l,\\alpha)$.","PeriodicalId":37555,"journal":{"name":"Matematychni Studii","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2022-03-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"On certain subclass of Dirichlet series absolutely convergent in half-plane\",\"authors\":\"M. Sheremeta\",\"doi\":\"10.30970/ms.57.1.32-44\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Denote by $\\\\mathfrak{D}_0$ a class of absolutely convergent in half-plane $\\\\Pi_0=\\\\{s\\\\colon \\\\text{Re}\\\\,s<0\\\\}$ Dirichlet series$F(s)=e^{sh}-\\\\sum_{k=1}^{\\\\infty}f_k\\\\exp\\\\{s(\\\\lambda_k+h)\\\\},\\\\, s=\\\\sigma+it$, where $h> 0$, $h<\\\\lambda_k\\\\uparrow+\\\\infty$ and $f_k>0$.For $0\\\\le\\\\alpha<h$ and $l\\\\ge 0$ we say that $F$ belongs to the class $\\\\mathfrak{DF}_h(l,\\\\alpha)$ if and only if$\\\\text{Re}\\\\{e^{-hs}((1-l)F(s)+\\\\frac{l}{h}F'(s))\\\\}>\\\\frac{\\\\alpha}{h}$,and belongs to the class $\\\\mathfrak{DG}_h(l,\\\\alpha)$ if and only if$\\\\text{Re}\\\\{e^{-hs}((1-l)F'(s)+\\\\frac{l}{h}F''(s))\\\\}>\\\\alpha$ for all $s\\\\in \\\\Pi_0$. It is provedthat $F\\\\in \\\\mathfrak{DF}_h(l,\\\\alpha)$ if and only if $ \\\\sum_{k=1}^{\\\\infty}(h+l\\\\lambda_k)f_k\\\\le h-\\\\alpha$, and$F\\\\in \\\\mathfrak{DG}_h(l,\\\\alpha)$ if and only if $\\\\sum_{k=1}^{\\\\infty}(h+l\\\\lambda_k)(\\\\lambda_k+h)f_k\\\\le h(h-\\\\alpha)$. \\nIf $F_j\\\\in \\\\mathfrak{DF}_h(l_j,\\\\alpha_j)$, $j=1, 2$, where $l_j\\\\ge0$ and $0\\\\le \\\\alpha_j<h$, then Hadamard composition$(F_1*F_2)\\\\in \\\\mathfrak{D}F_h(l,\\\\alpha)$, where $l=\\\\min\\\\{l_1,l_2\\\\}$ and$\\\\alpha=h-\\\\frac{(h-\\\\alpha_1)(h-\\\\alpha_2)}{h+l\\\\lambda_1}$. Similar statement is correct for the class $F_j\\\\in \\\\mathfrak{DG}_h(l,\\\\alpha)$. \\nFor $j>0$ and $\\\\delta>0$ the neighborhood of the function $F\\\\in \\\\mathfrak{D}_0$ is defined as follows$O_{j,\\\\delta}(F)=\\\\{G(s)=e^{s}-\\\\sum_{k=1}^{\\\\infty}g_k\\\\exp\\\\{s\\\\lambda_k\\\\}\\\\in \\\\mathfrak{D}_0\\\\colon \\\\sum_{k=1}^{\\\\infty}\\\\lambda^j_k|g_k-f_k|\\\\le\\\\delta\\\\}$. It is described the neighborhoods of functions from classes $\\\\mathfrak{DF}_h(l,\\\\alpha)$ and $\\\\mathfrak{DG}_h(l,\\\\alpha)$. \\nConditions on real parameters $\\\\gamma_0,\\\\,\\\\gamma_1,\\\\,\\\\gamma_2,\\\\,a_1$ and $a_2$ of the differential equation $w''+(\\\\gamma_0e^{2hs}+\\\\gamma_1e^{hs}+\\\\gamma_2) w=a_1e^{hs}+a_2e^{2hs}$ are found, under which this equation has a solutioneither in $\\\\mathfrak{DF}_h(l,\\\\alpha)$ or in $\\\\mathfrak{DG}_h(l,\\\\alpha)$.\",\"PeriodicalId\":37555,\"journal\":{\"name\":\"Matematychni Studii\",\"volume\":null,\"pages\":null},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2022-03-31\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"1\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Matematychni Studii\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.30970/ms.57.1.32-44\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"Q3\",\"JCRName\":\"Mathematics\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Matematychni Studii","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.30970/ms.57.1.32-44","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"Mathematics","Score":null,"Total":0}
引用次数: 1

摘要

以$\mathfrak表示{D}_0$在半平面上绝对收敛的一类$\Pi_0=\{s\colon\text{Re}\,s0$,$h0$。对于$0\le\alpha\frac{\alpha}{h}$,属于类$\mathfrak{DG}_h(l,\alpha)$当且仅当$\text{Re}{e^{-hs}((1-l)F'(s)+\frac{l}{h}F''(s)\}>\alpha$用于所有\s\in\Pi_0$。证明$F\in\mathfrak{DF}_h(l,\alpha)$当且仅当$\sum_{k=1}^{\infty}(h+l\lambda_k)f_k\le h-\alpha$和$f\in\mathfrak{DG}_h(l,\alpha)$当且仅当$\sum_{k=1}^{\infty}(h+l\lambda_k)(\lambda_6k+h)f_k\le h(h-\alpha$)$。如果$F_j\in\mathfrak{DF}_h(l_j,\alpha_j)$,$j=1,2$,其中$l_j\ge0$和$0\le\alpha_j0$和$\delta>0$是函数$F\in\mathfrak的邻域{D}_0$定义如下$O_{j,\delta}(F)=\{G(s)=e^{s}-\sum_{k=1}^{\infty}g_k\exp\{s\lambda\}\in\mathfrak{D}_0\冒号\sum_{k=1}^{\fty}\lambda ^j_k|g_k-f_k|\le\delta\}$。它描述了类$\mathfrak中函数的邻域{DF}_h(l,\alpha)$和$\mathfrak{DG}_h(l,\alpha)$。求出了微分方程$w’’+(\gamma_0e^{2hs}+\gamma_1e^}hs}+\gamma_2)w=a_1e^(hs})+a_2e^(2hs)$的实参数$\gamma-0,\,\gamma_1,\,\a_1$和$a_2$的条件,在此条件下该方程在$\mathfrak中有一个解{DF}_h(l,\alpha)$或在$\mathfrak中{DG}_h(l,\alpha)$。
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On certain subclass of Dirichlet series absolutely convergent in half-plane
Denote by $\mathfrak{D}_0$ a class of absolutely convergent in half-plane $\Pi_0=\{s\colon \text{Re}\,s<0\}$ Dirichlet series$F(s)=e^{sh}-\sum_{k=1}^{\infty}f_k\exp\{s(\lambda_k+h)\},\, s=\sigma+it$, where $h> 0$, $h<\lambda_k\uparrow+\infty$ and $f_k>0$.For $0\le\alpha\frac{\alpha}{h}$,and belongs to the class $\mathfrak{DG}_h(l,\alpha)$ if and only if$\text{Re}\{e^{-hs}((1-l)F'(s)+\frac{l}{h}F''(s))\}>\alpha$ for all $s\in \Pi_0$. It is provedthat $F\in \mathfrak{DF}_h(l,\alpha)$ if and only if $ \sum_{k=1}^{\infty}(h+l\lambda_k)f_k\le h-\alpha$, and$F\in \mathfrak{DG}_h(l,\alpha)$ if and only if $\sum_{k=1}^{\infty}(h+l\lambda_k)(\lambda_k+h)f_k\le h(h-\alpha)$. If $F_j\in \mathfrak{DF}_h(l_j,\alpha_j)$, $j=1, 2$, where $l_j\ge0$ and $0\le \alpha_j0$ and $\delta>0$ the neighborhood of the function $F\in \mathfrak{D}_0$ is defined as follows$O_{j,\delta}(F)=\{G(s)=e^{s}-\sum_{k=1}^{\infty}g_k\exp\{s\lambda_k\}\in \mathfrak{D}_0\colon \sum_{k=1}^{\infty}\lambda^j_k|g_k-f_k|\le\delta\}$. It is described the neighborhoods of functions from classes $\mathfrak{DF}_h(l,\alpha)$ and $\mathfrak{DG}_h(l,\alpha)$. Conditions on real parameters $\gamma_0,\,\gamma_1,\,\gamma_2,\,a_1$ and $a_2$ of the differential equation $w''+(\gamma_0e^{2hs}+\gamma_1e^{hs}+\gamma_2) w=a_1e^{hs}+a_2e^{2hs}$ are found, under which this equation has a solutioneither in $\mathfrak{DF}_h(l,\alpha)$ or in $\mathfrak{DG}_h(l,\alpha)$.
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来源期刊
Matematychni Studii
Matematychni Studii Mathematics-Mathematics (all)
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期刊介绍: Journal is devoted to research in all fields of mathematics.
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On the h-measure of an exceptional set in Fenton-type theorem for Taylor-Dirichlet series Almost periodic distributions and crystalline measures Reflectionless Schrodinger operators and Marchenko parametrization Existence of basic solutions of first order linear homogeneous set-valued differential equations Real univariate polynomials with given signs of coefficients and simple real roots
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