The theory of entire and meromorphic functions is a very important area of complex analysis. This monograph aims to expand the discussion about some growth properties of integer translated composite ...entire and meromorphic functions on the basis of their (p,q,t)L -order and (p,q,t)L -type. This book presents six chapters. Chapter 1 introduces the reader to the preliminary definitions and notations. Chapter 2 and Chapter 3 discuss some results related to (p; q; t) L-th order and (p; q; t)L-th lower order of composite entire and meromorphic functions on the basis of their integer translation. Chapter 4 establishes some relations of integer translated composite entire and meromorphic functions based on their (p; q; t) L-th type and (p; q; t) L-th weak type. Chapter 5 deals with some results about (p; q; t) L-th order and (p; q; t) L-th type of composite entire and meromorphic functions on the basis of their integer translation. Chapter 6 focuses on some results about (p; q; t) L-th order and (p; q; t) L-th type of composite entire and meromorphic functions on the basis of their integer translation. This monograph will be very helpful for postgraduates, researchers, and faculty members interested in value distribution theorems in complex mathematical analysis.
In the paper we establish some new results depend- ing on the comparative growth properties of composite entire and meromorphic functions using relative (p; q; t)L-th order and relative (p; q; t)L-th ...type of entire and meromorphic function with respect to another entire function.
Let us consider that K be a complete ultrametric alge-braically closed eld and A(K) be the K-algebra of entire functions on K. In this paper we introduce the notions of (p; q)-th relative or- der and ...(p; q)-th relative type of entire functions on K where p and q are any two positive integers and then study some basic proper-ties of p-adic entire functions on the basis of their (p; q)-th relative order and (p; q)-th relative type. KCI Citation Count: 0
Let us consider that K be a complete ultrametric alge- braically closed _eld and A(K) be the K-algebra of entire functions on K. In this paper we introduce the notions of (p; q)-th relative or- der ...and (p; q)-th relative type of entire functions on K where p and q are any two positive integers and then study some basic proper- ties of p-adic entire functions on the basis of their (p; q)-th relative order and (p; q)-th relative type.
The main aim of this paper is to study some growth properties of p -adic entire functions on the basis of generalized relative order (α, β) where α and β are continuous non-negative functions on (-∞, ...+∞).
In this paper we establish some results relating to the growths of composition of two entire functions with their corresponding left and right factors on the basis of their generalized order ...\((\alpha ,\beta )\) and generalized lower order \((\alpha ,\beta )\) where \(\alpha \) and \(\beta \) are continuous non-negative functions on \((-\infty ,+\infty )\).
This study empirically investigates the quadratic effects of bank diversification, size and global financial crisis on risk-taking behaviour and performance. To unfold those effects, it uses the ...generalized method of moments (GMM) estimator and also uses an unbalanced panel data set on a large sample consisting of 542 bank-year observations between 2004 and 2015. The key results for emerging economies are as follows: (a) increasingly higher non-performing loan ratio makes the bank underperforming and unstable; (b) benefits derived from bank diversification are heterogeneous and confirms portfolio diversification theory; (c) small-sized banks of Bangladesh ensure higher advantage from portfolio mix over large banks; (d) large banks of South Africa achieve higher benefit from income diversification over small-sized banks; and finally, this study evidences that during the financial crisis, emerging economies can use portfolio diversification as a mechanism for controlling risk and improve bank performance. Mainly, emerging countries can rely on income diversification and should involve this mechanism with systematic risk a great care of.
In this paper we attempt to prove some results related to the growth rates of entire functions on the basis of relative L^{∗}-type and relative L^{∗}-weak type of an entire function with respect to ...another entire function.
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DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, UILJ, UKNU, UL, UM, UPUK
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