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Dynamical analysis of the SVEIR-M epidemic model with age structure under media coverage. [PDF]
Infect Dis ModelWang J, Yan X, Chang X, Liu M.
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Capabilities of the 3D-MLSI software tool in superconducting neuron design. [PDF]
Beilstein J NanotechnolTarasova IE +7 more
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Thermodynamic properties of CrMnFeCoNi high entropy alloy at elevated electronic temperatures. [PDF]
Sci RepMedvedev N.
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Comparative analysis of lump, breather, and interaction solutions using a bidirectional data mapping approach. [PDF]
Sci RepKazmi SS, Riaz MB.
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Some Singular Integro-Differential Equations
Funkcialaj Ekvacioj, 2023Summary: We are devoted with a singular integro-differential problem. Required conditions on spaces and operators are given guaranteeing existence and uniqueness of solutions. We make use of \textit{W. M. Greenlee}'s idea [Ann. Inst. Fourier 18, No. 2, 135--191 (1968; Zbl 0175.40006)] to rewrite the singular integro-differential problem in a regular ...
Horani, Mohammed Al +2 more
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Integro-Differential Equations
1992The aim of this chapter is to extend some results of Chapters 1 – 7 concerning boundedness, convergence and quasiconvergence to a class of integro-differential equations with retarded argument which arises from phase synchronization problems. Our aim is to apply ordinary differential equation methods such as the Bakaev-Guzh technique and non-local ...
Gennadij A. Leonov +2 more
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Reconstructing a fractional integro‐differential equation
Mathematical Methods in the Applied Sciences, 2020We are concerned with the inverse problem of reconstructing a fractional integro‐differential equation from a single observation of its solution at an arbitrary point. We first prove the global existence of solutions generated by suitable initial conditions.
Amin Boumenir +2 more
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Oscillatory solutions of fractional integro‐differential equations
Mathematical Methods in the Applied Sciences, 2020We give necessary conditions to get oscillatory solutions of a class of fractional order neutral differential equations with continuously distributed delay by means of the fractional derivative with respect to a given function. In particular, oscillatory solutions of the considered fractional equations with Caputo and Hadamard type of fractional ...
Joel E. Restrepo, Durvudkhan Suragan
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Integro-Differential Equations of Fractional Order
Differential Equations and Dynamical Systems, 2012For a Cauchy type problem for a two-dimensional integro-differential equation of fractional order the global unique existence of a solution is proved if the nonlinearity satisfies a global Lipschitz condition with a sufficiently small Lipschitz constant.
Abbas, Saïd +2 more
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2015
Solving for the complete many-body wave function (instead of partial waves in a PH expansion), one gets an integro-differential equation (IDE). The IDE is derived from PH expansion method. Hence, IDE and PHEM are equivalent. Still IDE has certain advantages: its structure and complexity do not increase with the number of particles. Also, since there is
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Solving for the complete many-body wave function (instead of partial waves in a PH expansion), one gets an integro-differential equation (IDE). The IDE is derived from PH expansion method. Hence, IDE and PHEM are equivalent. Still IDE has certain advantages: its structure and complexity do not increase with the number of particles. Also, since there is
openaire +1 more source