• Title/Summary/Keyword: Delay-differential polynomials

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PAIRED HAYMAN CONJECTURE AND UNIQUENESS OF COMPLEX DELAY-DIFFERENTIAL POLYNOMIALS

  • Gao, Yingchun;Liu, Kai
    • Bulletin of the Korean Mathematical Society
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    • v.59 no.1
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    • pp.155-166
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    • 2022
  • In this paper, the paired Hayman conjecture of different types are considered, namely, the zeros distribution of f(z)nL(g) - a(z) and g(z)nL(f) - a(z), where L(h) takes the derivatives h(k)(z) or the shift h(z+c) or the difference h(z+c)-h(z) or the delay-differential h(k)(z+c), where k is a positive integer, c is a non-zero constant and a(z) is a nonzero small function with respect to f(z) and g(z). The related uniqueness problems of complex delay-differential polynomials are also considered.

ZERO DISTRIBUTION OF SOME DELAY-DIFFERENTIAL POLYNOMIALS

  • Laine, Ilpo;Latreuch, Zinelaabidine
    • Bulletin of the Korean Mathematical Society
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    • v.57 no.6
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    • pp.1541-1565
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    • 2020
  • Let f be a meromorphic function of finite order ρ with few poles in the sense Sλ(r, f) := O(rλ+ε) + S(r, f), where λ < ρ and ε ∈ (0, ρ - λ), and let g(f) := Σkj=1bj(z)f(kj)(z + cj) be a linear delay-differential polynomial of f with small meromorphic coefficients bj in the sense Sλ(r, f). The zero distribution of fn(g(f))s - b0 is considered in this paper, where b0 is a small function in the sense Sλ(r, f).

ON DELAY DIFFERENTIAL EQUATIONS WITH MEROMORPHIC SOLUTIONS OF HYPER-ORDER LESS THAN ONE

  • Risto Korhonen;Yan Liu
    • Bulletin of the Korean Mathematical Society
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    • v.61 no.1
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    • pp.229-246
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    • 2024
  • We consider the delay differential equations $$b(z)w(z+1)+c(z)w(z-1)+a(z)\frac{w'(z)}{w^k(z)}=\frac{P(z, w(z))}{Q(z, w(z))}$$, where k ∈ {1, 2}, a(z), b(z) ≢ 0, c(z) ≢ 0 are rational functions, and P(z, w(z)) and Q(z, w(z)) are polynomials in w(z) with rational coefficients satisfying certain natural conditions regarding their roots. It is shown that if this equation has a non-rational meromorphic solution w with hyper-order ρ2(w) < 1, then either degw(P) = degw(Q) + 1 ≤ 3 or max{degw(P), degw(Q)} ≤ 1. In addition, it is shown that in the case max{degw(P), degw(Q)} = 0 the equations above can have such a solution, with an additional zero density requirement, only if the coefficients of the equation satisfy certain strict conditions.