New approximation-solvability of general nonlinear operator inclusion couples involving (A,η,m)-resolvent operators and relaxed cocoercive type operators

Abstract This paper deals with the abstract evolution equations in L s {L}^{s} -spaces with critical temporal weights. First, embedding and interpolation properties of the critical L s {L}^{s} -spaces with different exponents s s are investigated, then solvability of the linear evolution equation, attached to which the inhomogeneous term f f and its average Φ f \Phi f both lie in an L 1 / s s {L}_{1\hspace{-0.08em}\text{/}\hspace{-0.08em}s}^{s} -space, is established. Based on these results, Cauchy problem of the semi-linear evolution equation is treated, where the nonlinear operator F ( t , u ) F\left(t,u) has a growth number ρ ≥ s + 1 \rho \ge s+1 , and its asymptotic behavior acts like α ( t ) / t \alpha \left(t)\hspace{-0.1em}\text{/}\hspace{-0.1em}t as t → 0 t\to 0 for some bounded function α ( t ) \alpha \left(t) like ( − log t ) − p {\left(-\log t)}^{-p} with 2 ≤ p < ∞ 2\le p\lt \infty .

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An algorithm for finding common solutions of various problems in nonlinear operator theory

Fixed Point Theory and Applications ◽

10.1186/1687-1812-2014-9 ◽

2014 ◽

Vol 2014 (1) ◽

pp. 9 ◽

Cited By ~ 2

Author(s):

Eric U Ofoedu ◽

Jonathan N Odumegwu ◽

Habtu Zegeye ◽

Naseer Shahzad

Keyword(s):

Operator Theory ◽

Nonlinear Operator

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General -monotone operators and perturbed iterations for nonlinear set-valued relaxed cocoercive operator inclusion problems

Applied Mathematics and Computation ◽

10.1016/j.amc.2009.07.031 ◽

2009 ◽

Vol 215 (4) ◽

pp. 1583-1592 ◽

Cited By ~ 2

Author(s):

Heng-you Lan ◽

Le-cai Cai ◽

Zi-shan Liu

Keyword(s):

Monotone Operators ◽

Operator Inclusion ◽

Inclusion Problems ◽

Cocoercive Operator

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GENERAL FORMULA FOR THE SECOND VIRIAL COEFFICIENT

Canadian Journal of Physics ◽

10.1139/p61-186 ◽

1961 ◽

Vol 39 (11) ◽

pp. 1563-1572 ◽

Cited By ~ 1

Author(s):

J. Van Kranendonk

Keyword(s):

Phase Shift ◽

Virial Coefficient ◽

Second Virial Coefficient ◽

Resolvent Operators ◽

Simple Derivation ◽

Scattering Phase ◽

Scattering Phase Shifts ◽

Quantization Volume ◽

Mechanical Expression ◽

The Waves

A simple derivation is given of the quantum mechanical expression for the second virial coefficient in terms of the scattering phase shifts. The derivation does not require the introduction of a quantization volume and is based on the identity R(z)−R0(z) = R0(z)H1R(z), where R0(z) and R(z) are the resolvent operators corresponding to the unperturbed and total Hamiltonians H0 and H0 + H1 respectively. The derivation is valid in particular for a gas of excitons in a crystal for which the shape of the waves describing the relative motion of two excitons is not spherical, and, in general, varies with varying energy. The validity of the phase shift formula is demonstrated explicitly for this case by considering a quantization volume with a boundary the shape of which varies with the energy in such a way that for each energy the boundary is a surface of constant phase. The density of states prescribed by the phase shift formula is shown to result if the enclosed volume is required to be the same for all energies.

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A study on controllability of impulsive fractional evolution equations via resolvent operators

Boundary Value Problems ◽

10.1186/s13661-021-01499-5 ◽

2021 ◽

Vol 2021 (1) ◽

Author(s):

Haide Gou ◽

Yongxiang Li

Keyword(s):

Banach Space ◽

Fixed Point ◽

Fixed Point Theorem ◽

Resolvent Operator ◽

Evolution Equations ◽

Validity Study ◽

Resolvent Operators ◽

Fractional Evolution Equations ◽

Mönch Fixed Point Theorem ◽

Alpha Beta

AbstractIn this article, we study the controllability for impulsive fractional integro-differential evolution equation in a Banach space. The discussions are based on the Mönch fixed point theorem as well as the theory of fractional calculus and the $(\alpha ,\beta )$ ( α , β ) -resolvent operator, we concern with the term $u'(\cdot )$ u ′ ( ⋅ ) and finding a control v such that the mild solution satisfies $u(b)=u_{b}$ u ( b ) = u b and $u'(b)=u'_{b}$ u ′ ( b ) = u b ′ . Finally, we present an application to support the validity study.

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Existence and Uniqueness of Solutions to the Wage Equation of Dixit-Stiglitz-Krugman Model with No Restriction on Transport Costs

Discrete Dynamics in Nature and Society ◽

10.1155/2017/9341502 ◽

2017 ◽

Vol 2017 ◽

pp. 1-7 ◽

Cited By ~ 2

Author(s):

Minoru Tabata ◽

Nobuoki Eshima

Keyword(s):

Fixed Point ◽

Existence And Uniqueness ◽

Nonlinear Operator ◽

Sufficient Conditions ◽

Wage Equation ◽

Discrete Equation ◽

Transport Costs ◽

Economic Activities ◽

Uniqueness Of Solutions ◽

Double Nonlinear

In spatial economics, the distribution of wages is described by a solution to the wage equation of Dixit-Stiglitz-Krugman model. The wage equation is a discrete equation that has a double nonlinear singular structure in the sense that the equation contains a discrete nonlinear operator whose kernel itself is expressed by another discrete nonlinear operator with a singularity. In this article, no restrictions are imposed on the maximum of transport costs of the model and on the number of regions where economic activities are conducted. Applying Brouwer fixed point theorem to this discrete double nonlinear singular operator, we prove sufficient conditions for the wage equation to have a solution and a unique one.

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