Uniqueness of Meromorphic Functions With Nonlinear Differential Polynomials Sharing a Small Function IM
Abstract
In the paper, we discuss the distribution of uniqueness and its elements over the extended complex plane from different polynomials of view. We obtain some new results regarding the structure and position of uniqueness. These new results have immense applications like classifying different expressions to be or not to be unique. The principal objective of the paper is to study the uniqueness of meromorphic functions when sharing a small function $a(z)$ IM with restricted finite order and its nonlinear differential polynomials. The lemma on the logarithmic derivative by Halburb and Korhonen (Journal of Mathematical Analysis and Applications, \textbf{314} (2006), 477--87) is the starting point of this kind of research. In this direction, the current focus in this field involves exploring unique results for the differential-difference polynomials of meromorphic functions, covering both derivatives and differences. Liu et al. (Applied Mathematics A Journal of Chinese Universities, \textbf{27} (2012), 94--104) have notably contributed to this research. Their research establishes that when $n \leq k + 2$ for a finite-order transcendental entire function $f$ the differential-difference polynomial$[f^{n}f(z+c)]^{(k)} - \alpha(z)$ has infinitely many zeros. Here, $\alpha(z)$ is characterized by its smallness relatively to $f$. Additionally, for two distinct meromorphic functions $f$ and $g$, both of finite order, if the differential-difference polynomials $[f^{n}f(z+c)]^{(k)}$\ and\ $[g^{n}g(z+c)]^{(k)}$ share the value $1$ in the same set, then $f(z)=c_1e^{dz},$ $g(z)=c_2e^{-dz}.$ We prove two results, which significantly generalize the results of Dyavanal and Mathai (Ukrainian Math. J., \textbf{71} (2019), 1032--1042), and Zhang and Xu (Comput. Math. Appl., \textbf{61} (2011), 722-730) and citing a proper example we have shown that the result is true only for a particular case. Finally, we present the compact version of the same result as an improvement.
References
W.K. Hayman, Meromorphic functions, Oxford University Press, 1964.
A.A. Goldberg, I.V. Ostrovskii, Value Distribution of Meromorphic Functions, American Mathematical Soc., 236, 2008.
R.G Halburd, R.J Korhonen, Difference analogue of the lemma on the log arithmic derivative with applications to difference equations, J. Math. Anal. Appl., 314 (2006), 477–87.
R.G. Halburd, R.J. Korhonen, Nevanlinna theory for the difference operator, Annales Academiae Scientiarum Fennicae. Mathematica, 31 (2006), 463–478.
Y.F. Wang, On Mues conjecture and Picard values, Science in China, Ser. A, 36 (1993), 28–35.
M.L. Fang, Uniqueness and value-sharing of entire functions, Computers and Mathematics with Applications, 44 (2002), 828–831.
X.Y. Zhang, J.F. Chen, W.C. Lin, Entire or meromorphic functions sharing one value, Computers and Mathematics with Applications, 56 (2008), 1876–1883.
K. Liu, X.L. Liu, T.B. Cao, Some results on zeros and uniqueness of difference-differential polynomials, Appl. Math. (A Journal of Chinese Universities), 27 (2012), 94–104.
R.S. Dyavanal, M.M. Mathai, Uniqueness of difference-differential polynomials of meromporphic functions, Ukr. Math. J., 71 (2019), 1032–1042.
R.S. Dyavanal, S.B. Kalakoti, Normality and uniqueness of homogeneous differential polynomials, Mat. Stud., 59 (2023), 168–177.
P. Sahoo, G. Biswas, Meromorphic function that share a set of small functions with its derivative, Mat. Stud., 46 (2016), 130–136.
P. Sahoo, B. Saha, Entire functions that share a polynomial with finite weight, Mat. Stud., 44 (2015), 36–44.
A. Banerjee, S. Bhattacharyya, Meromorphic function sharing three sets with its shift, q-shift, q-difference and analogous operators, Mat. Stud., 52 (2019), 38–47.
A. Banerjee, A. Roy, A note on power of meromorphic function and its shift operator of certain hyperorder sharing one small function and a value, Mat. Stud., 55 (2021), 57–63.
Xiao-Guang Qi, Lian-Zhong Yang, Kai Liu, Uniqueness and periodicity of meromorphic functions concerning the difference operator, Computers and Mathematics with Applications, 60 (2010), 1739–1746.
Kai Liu, Xin-ling Liu, Ting-bin Cao, Some results on zeros and uniqueness of difference-differential polynomials, Appl. Math. (A Journal of Chinese Universities), 27 (2012), 94–104.
S. Mallick, On the distribution of unique range sets and its elements over the extended complex plane, Mat. Stud., 60 (2023), 40–54.
W. Bergweiler, J. K. Langley, Zeros of differences of meromorphic functions, Math. Proc. Cambridge Philosoph. Soc., 142 (2007), 133–147.
Yik-Man Chiang, Shao-Ji Feng, On the Nevanlinna characteristic of f (z + η) and difference equations in the complex plane, The Ramanujan Journal, 16 (2008), 105–129.
Xudan Luo, Wei-Chuan Lin, Value sharing results for shifts of meromorphic functions, J. Math. Anal. Appl., 377 (2011), 441–449.
Hong Xun Yi, Uniqueness of meromorphic functions and a question of C.C. Yang, Complex Variables, Theory and Application: an International Journal, 14 (1990), 169–176.
Chung-Chun Yang, Xinhou Hua, Uniqueness and value-sharing of meromorphic functions, Annales Academiae Scientiarum Fennicae, Ser. A1, Math., 22 (1997), 395–406.
A. Banerjee, Meromorphic functions sharing one value, International J. Math. and Math. Sc., 22 (2005), 3587–3598.
Hong-Xun Yi, Meromorphic functions that share three sets, Kodai Math. J., 20 (1997), 22–32.
Molla Basir Ahamed, Goutam Haldar, Uniqueness of difference-differential polynomials of meromorphic functions sharing a small function IM, J. Anal., 30 (2022), 147–174.
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