渐近周期函数的 Tauberian 定理及其在抽象 Cauchy 问题中的应用

Abstract

Abstract:

The bounded primitive of a periodic function is periodic, and the bounded primitive of an asymptotically periodic function is not necessarily asymptotically periodic. In this paper, we introduce the concept of slowly periodic functions and prove that the bounded primitive function of an asymptotically periodic function is slowly periodic. Interestingly, slowly periodic functions are just a special class of $\S$-asymptotically periodic functions, which were introduced 15 years ago and extensively studied in recent years. On this basis, a Tauberian theorem for asymptotically periodic functions and two related Tauberian theorems are established. Moreover, we apply our Tauberian theorems to the nonhomogeneous abstract Cauchy problem, and obtain the spectral condition under which the solution of Cauchy problem is $\S$-asymptotically periodic. In our Tauberian theorem for asymptotically periodic functions and its application to abstract Cauchy problem, we completely remove the ergodic assumption in [23] although the conclusions are slightly weaker than asymptotical periodicity. Finally, we construct a concrete Cauchy problem as an example. It is worth mentioning that the inhomogeneous term of this Cauchy problem is asymptotically periodic and its solution is $\S$-asymptotically periodic rather than asymptotically periodic. This demonstrates that $\S$-asymptotically periodic functions are the "natural class'' for solutions to some differential equations.

Key words: Asymptotically periodic, Slowing periodic, $\S$-asymptotically periodic, Abstract Cauchy problem, Tauberian theorem, Beurling spectrum

CLC Number:

O177.7

Jian Weigang, Long Wei. Tauberian Theorem for Asymptotically Periodic Functions and Its Application to Abstract Cauchy Problems[J].Acta mathematica scientia,Series A, 2023, 43(6): 1699-1709.

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References 25

[1]	Arendt W, Batty C J K. Almost periodic solutions of first- and second-order Cauchy problems. J Differential Equations, 1997, 137: 363-383 doi: 10.1006/jdeq.1997.3266
[2]	Arendt W, Batty C J K, Hieber M, Neubrander F. Vector-Valued Laplace Transforms and Cauchy Problems. Basel: Birkhauser Verlag, 2011
[3]	Basit B. Some Problems Concerning Different Types of Vector Almost Periodic Functions. Warszawa: Instytut Metematyczny Polskiej Akademi Nauk, 1995, 338: 1-26
[4]	Basit B. Harmonic analysis and asymptotic behavior of solutions to the abstract Cauchy problem. Semigroup Forum, 1997, 54: 58-74 doi: 10.1007/BF02676587
[5]	Baskakov A G, Kaluzhina N S, Polyakov D M. Slowly varying at infinity operator semigroups. Russian Math, 2014, 58: 1-10
[6]	Baskakov A G, Strukova I I, Trishina I A. Solutions almost periodic at infinity to differential equations with unbounded operator coefficients. Siberian Math J, 2018, 59: 231-242 doi: 10.1134/S0037446618020052
[7]	Blot J, Boudjema S, Cieutat P. Dependence results for $\S$-asymptotically periodic solutions of evolution equations. Nonlinear Stud, 2013, 20(3): 295-307
[8]	Brindle D, N'Guérékata G M. Existence results of $S$-asymptotically $\tau$-periodic mild solutions to some integrodifferential equations. Panamer Math J, 2019, 29(2): 63-74
[9]	Chang Y K, Wei Y Y. $\S$-asymptotically Bloch type periodic solutions to some semi-linear evolution equations in Banach spaces. Acta Math Sci, 2021, 41B(2): 413-425
[10]	Chang Y K, Wei Y Y. Pseudo $\S$-asymptotically Bloch type periodic solutions to fractional integro-differential equations with Stepanov-like force terms. Z Angew Math Phys, 2022, 73: Article number 77
[11]	Dimbour W. Pseudo $\S$-asymptotically $\omega$-periodic solution for a differential equation with piecewise constant argument in a Banach space. J Difference Equ Appl, 2020, 26(1/4): 140-148 doi: 10.1080/10236198.2019.1709179
[12]	Engel K J, Nagel R. One-Parameter Semigroups for Linear Evolution Equations. Berlin: Springer-Verlag, 2000
[13]	Henriquez H R, Pierri M, Tabos P. On $S$-asymptotically $\omega$-periodic functions on Banach spaces and applications. J Math Anal Appl, 2008, 343: 1119-1130 doi: 10.1016/j.jmaa.2008.02.023
[14]	Hernández E, Pierri M. $\S$-asymptotically periodic solutions for abstract equations with state-dependent delay. Bull Aust Math Soc, 2018, 98: 456-464 doi: 10.1017/S0004972718000771
[15]	简伟刚, 陈园园. 超线性扰动下的差分方程$\S$-渐进$\omega$-周期解. 江西师范大学学报(自然科学版), 2021, 45(3): 339-342
	Jian W G, Chen Y Y. The $\S$-asmptotically $\omega$-periodic type solutions for difference equations with superlinear perturbation. Journal of Jiangxi Normal University (Natural Science Edition), 2021, 45(3): 339-342
[16]	Levitan B M, Zhikov V V. Almost Periodic Functions and Differential Equations. Cambridge: Cambridge Univ Press, 1982
[17]	Li F, Wang H W. S-asymptotically $\omega$-periodic mild solutions of neutral fractional differential equations with finite delay in Banach space. Mediterr J Math, 2017, 14: Article number 57
[18]	Nguyen V M, Hideaki M, Nguyen D H, VũT L. A Katznelson-Tzafriri type theorem for difference equations and applications. Proc Amer Math Soc, 2022, 150(3): 1105-1114 doi: 10.1090/proc/2022-150-03
[19]	Nicola S H J, Pierri M. A note on $\S$-asymptotically periodic functions. Nonlinear Anal Real World Appl, 2009, 10(5): 2937-2938 doi: 10.1016/j.nonrwa.2008.09.011
[20]	Oueama-Guengai E R, N'Guérékata G M. On $\S$-asymptotically $\omega$-periodic and Bloch periodic mild solutions to some fractional differential equations in abstract spaces. Math Methods Appl Sci, 2018, 41(18): 9116-9122 doi: 10.1002/mma.v41.18
[21]	Rudin W. Functional Analysis. New York: McGraw-Hill, 1991
[22]	Ruess W M, Summers W H. Integration of Asymptotically Almost Periodic Functions and Weak Asymptotic Almost Periodicity. Warszawa: Instytut Matematyczny Polskiej Akademi Nauk, 1989
[23]	Ruess W M, Vũ Q P. Asymptotically almost periodic solutions of evolution equations in Banach spaces. J Differential Equations, 1995, 122: 282-301 doi: 10.1006/jdeq.1995.1149
[24]	Vũ T L, Do V L, Nguyen V M, Hideaki M. A Massera theorem for asymptotic periodic solutions of periodic evolution equations. J Differential Equations, 2022, 329: 371-394 doi: 10.1016/j.jde.2022.05.010
[25]	Zhang C Y. Almost Periodic Type Functions and Ergodicity Dordrecht: Springer Dordrecht, 2003

Tauberian Theorem for Asymptotically Periodic Functions and Its Application to Abstract Cauchy Problems

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