To investigate a class of the singular fractional integro-differential quantum equations with multi-step methods

IF 0.4 Q4 MATHEMATICS Journal of Mathematical Extension Pub Date : 2021-08-08 DOI:10.30495/JME.V15I0.2070

M. Samei, Hasti Zanganeh, S. M. Aydoǧan

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引用次数: 7

Abstract

The objective of this paper is to investigate, by applying the standard Caputo fractional $q$--derivative of order $\alpha$, the existence of solutions for the singular fractional $q$--integro-differential equation $\mathcal{D}_q^\alpha [k](t) = \Omega (t , k(t), k'(t), \mathcal{D}_q^\beta [k](t), \int_0^t f(r) k(r) \, {\mathrm d}r )$, under some boundary conditions where $\Omega(t, k_1, k_2, k_3, k_4)$ is singular at some point $0 \leq t\leq 1$, on a time scale $\mathbb{T}_{ t_0} = \{ t : t =t_0q^n\}\cup \{0\}$, for $n\in \mathbb{N}$ where $t_0 \in \mathbb{R}$ and $q \in (0,1)$. We consider the compact map and avail the Lebesgue dominated theorem for finding solutions of the addressed problem. Besides, we prove the main results in context of completely continuous functions. Our attention is concentrated on fractional multi-step methods of both implicit and explicit type, for which sufficient existence conditions are investigated. Lastly, we present some examples involving graphs, tables and algorithms to illustrate the validity of our theoretical findings.

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用多步方法研究了一类奇异分数阶积分微分量子方程

本文的目的是通过应用标准Caputo分式$q$——阶导数$\alpha$，研究奇异分式$q$-积分微分方程$\mathcal解的存在性{D}_q^\alpha[k]（t）=\Omega（t，k（t），k'（t）、\mathcal{D}_q^\β[k]（t），\int_0^t f（r）k（r）\，｛\mathrm d｝r）$，在一些边界条件下，其中$\Omega（t，k_1，k_2，k_3，k_4）$在时间标度$\mathbb上的某个点$0\leq t\leq 1$是奇异的{T}_｛t_0｝=\｛t:t=t_0q^n\｝\cup \｛0\｝$，对于$n\in\mathbb｛n｝$其中$t_0\in\mathbb{R｝$和$q\in（0,1）$。我们考虑紧映射，并利用Lebesgue支配定理来寻找所解决问题的解。此外，我们在完全连续函数的上下文中证明了主要结果。我们的注意力集中在隐式和显式的分数阶多步方法上，研究了它们的充分存在条件。最后，我们给出了一些涉及图、表和算法的例子来说明我们的理论发现的有效性。

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Journal of Mathematical Extension MATHEMATICS-

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24 weeks