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With the help of the Nevanlinna theory of meromorphic functions, the purpose of this article is to describe the existence and the forms of transcendental entire and meromorphic solutions for several systems of the quadratic trinomial functional equations: {f(z)2+2αf(z)g(z+c)+g(z+c)2=1,g(z)2+2αg(z)f(z+c)+f(z+c)2=1, {f(z+c)2+2αf(z+c)g'(z)+g'(z)2=1,g(z+c)2+2αg(z+c)f'(z)+f'(z)2=1, and {f(z+c)2+2αf(z+c)g′′(z)+g′′(z)2=1,g(z+c)2+2αg(z+c)f′′(z)+f′′(z)2=1. We obtain a series of results on the forms of the entire solutions with finite order for such systems, which are some improvements and generalizations of the previous theorems given by Gao et al. Moreover, we provide some examples to explain the existence and forms of solutions for such systems in each case.
Wydawca
Czasopismo
Rocznik
Tom
Strony
676--694
Opis fizyczny
Bibliogr. 28 poz.
Twórcy
autor
- College of Arts and Sciences, Suqian University, Suqian, Jiangsu 223800, P. R. China
- School of Mathematics and Computer Science, Shangrao Normal University, Shangrao Jiangxi, 334001, P. R. China
- School of Mathematics and Computer Science, Gannan Normal University, Ganzhou, Jiangxi 341000, P. R. China
autor
- School of Mathematics and Computer Science, Gannan Normal University, Ganzhou, Jiangxi 341000, P. R. China
autor
- School of Mathematics and Computer Science, Shangrao Normal University, Shangrao Jiangxi, 334001, P. R. China
Bibliografia
- [1] Y. M. Chiang and S. J. Feng, On the Nevanlinna characteristic of f z η( )+ and difference equations in the complex plane, Ramanujan J. 16 (2008), no. 1, 105–129.
- [2] R. G. Halburd and R. J. Korhonen, Difference analogue of the lemma on the logarithmic derivative with applications to difference equations, J. Math. Anal. Appl. 314 (2006), 477–487.
- [3] R. G. Halburd and R. Korhonen, Finite-order meromorphic solutions and the discrete Painlevé equations, Proc. London Math. Soc. 94 (2007), 443–474.
- [4] R. G. Halburd and R. J. Korhonen, Nevanlinna theory for the difference operator, Annales Academiae Scientiarum Fennicae. Mathematica 31 (2006), no. 2, 463–478.
- [5] K. Liu, I. Laine, and L. Z. Yang, Complex Delay-Differential Equations, De Gruyter, Berlin, Boston, 2021.
- [6] E. G. Saleeby, On complex analytic solutions of certain trinomial functional and partial differential equations, Aequat. Math. 85 (2013), 553–562.
- [7] A. Ali, K. Shah, and F. Jarad, Ulam?CHyers stability analysis to a class of nonlinear implicit impulsive fractional differential equations with three point boundary conditions, Adv. Differ. Equ. 2019 (2019), no. 7, 1–27.
- [8] M. Ahmad, A. Zada, and J. Alzabut, Hyers-Ulam stability of a coupled system of fractional differential equations of Hilfer-Hadamard type, Demonstr. Math. 52 (2019), no. 1, 283–295
- [9] S. Bushnaq, K. Shah, S. Tahir, K. J. Ansari, M. Sarwar, and T. Abdeljawad, Computation of numerical solutions to variable order fractional differential equations by using non-orthogonal basis, AIMS Math. 7 (2022), 10917–10938.
- [10] I. Laine, Nevanlinna Theory and Complex Differential Equations, Walter de Gruyter, Berlin, 1993.
- [11] A. Naftalevich, On a differential-difference equation, Mich. Math. J. 19 (1966), 59–65.
- [12] A. Naftalevich, On meromorphic solutions of a linear differential-difference equation with constant coefficients, Mich. Math. J. 27 (1980), 195–213.
- [13] X. G. Qi, Y. Liu, and L. Z. Yang, A note on solutions of some differential-difference equations, J. Contemp. Math. Anal. (Armenian Academy of Sciences). 52 (2017), no. 3, 128–133.
- [14] J. Rieppo, On a class of complex functional equations, Ann. Acad. Sci. Fenn. Math. 32 (2007), no. 1, 151–170.
- [15] K. Shah, M. Arfan, A. Ullah, Q. Al-Mdallal, K. J. Ansari, and T. Abdeljawad, Computational study on the dynamics of fractional order differential equations with applications. Chaos Soliton Fractal. 157 (2022), 111955.
- [16] K. Shah, H. Naz, M. Sarwar, and T. Abdeljawad, On spectral numerical method for variable-order partial differential equations, AIMS Math. 7 (2022), 10422–10438.
- [17] H. Y. Xu and Y. Y. Jiang, Results on entire and meromorphic solutions for several systems of quadratic trinomial functional equations with two complex variables, RACSAM. 116 (2022), no. 8, 1–19.
- [18] H. Y. Xu, S. Y. Liu, and Q. P. Li, Entire solutions for several systems of nonlinear difference and partial differential difference equations of Fermat-type, J. Math. Anal. Appl. 483 (2020), no. 123641, 1–22.
- [19] H. Y. Xu, D. W. Meng, S. Y. Liu, and H. Wang, Entire solutions for several second-order partial differential-difference equations of Fermat type with two complex variables, Adv. Differ. Equ. 2021 (2021), no. 52, 1–24.
- [20] H. Y. Xu and L. Xu, Transcendental entire solutions for several quadratic binomial and trinomial PDEs with constant coefficients, Anal. Math. Phys. 12 (2022), no. 64, 1–21.
- [21] K. Liu, T. B. Cao, and H. Z. Cao, Entire solutions of Fermat type differential-difference equations, Arch. Math. 99 (2012), 147–155.
- [22] K. Liu and L. Z. Yang, A note on meromorphic solutions of Fermat types equations, An. Ştiinţ. Univ. Al. I. Cuza Iaşi Mat. (N. S.). 1 (2016), 317–325.
- [23] L. Y. Gao, Entire solutions of two types of systems of complex differential-difference equations, Acta Math. Sinica, Chinese Series 59 (2016), 677–685.
- [24] M. L. Liu and L. Y. Gao, Transcendental solutions of systems of complex differential-difference equations (in Chinese), Sci. Sin. Math. 49 (2019), 1–22.
- [25] G. Pólya. On an integral function of an integral function, J. Lond. Math. Soc. 1 (1926), 12–15.
- [26] H. X. Yi and C. C. Yang, Uniqueness Theory of Meromorphic Functions, Kluwer Academic Publishers, Dordrecht, 2003; Chinese original: Science Press, Beijing, 1995.
- [27] A. Vitter, The lemma of the logarithmic derivative in several complex variables, Duke Math. J. 44 (1977), 89–104.
- [28] W. Stoll, Holomorphic Functions of Finite Order in Several Complex Variables, American Mathematical Society, Providence, 1974.
Uwagi
PL
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
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