Composite Bank-Laine functions and a question of Rubel
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Publication:2759060
DOI10.1090/S0002-9947-01-02917-8zbMath0992.30019MaRDI QIDQ2759060
Publication date: 10 December 2001
Published in: Transactions of the American Mathematical Society (Search for Journal in Brave)
Value distribution of meromorphic functions of one complex variable, Nevanlinna theory (30D35) Entire and meromorphic solutions to ordinary differential equations in the complex domain (34M05)
Related Items
Research questions on meromorphic functions and complex differential equations ⋮ On the Bank-Laine conjecture ⋮ A generalisation of the Bank-Laine property ⋮ Complex flows, escape to infinity and a question of Rubel ⋮ Value distribution of differences of meromorphic functions ⋮ Unbounded analytic functions on plane domains ⋮ Shared values, Picard values and normality
Cites Work
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- On the zeros of meromorphic solutions of second-order linear differential equations
- On the growth of subharmonic functions along paths
- On complex oscillation and a problem of Ozawa
- Nevanlinna theory and complex differential equations
- On Iversen's theorem for meromorphic functions with few poles
- Proof of a conjecture of Gross concerning fix-points
- Linear combinations of logarithmic derivatives of entire functions with applications to differential equations
- Rational iteration: complex analytic dynamical systems
- Bank-Laine functions with sparse zeros
- The Length of Asymptotic Paths of Harmonic Functions
- Second Order Differential Equations with Transcendental Coefficients
- [https://portal.mardi4nfdi.de/wiki/Publication:3728335 Construction of a Differential Equation y � � + Ay = 0 with Solutions having the Prescribed Zeros]
- The Local Growth of Power Series: A Survey of the Wiman-Valiron Method
- On Multiple Points of Meromorphic Functions
- [https://portal.mardi4nfdi.de/wiki/Publication:4740850 On the Oscillation Theory of f � � + Af = 0 where A is Entire]
- A Note on Ahlfors' Theory of Covering Surfaces
- On Factorisation of Certain Entire Functions
