Uniqueness of radial solutions of semilinear elliptic equations
Copyright policy )Uniqueness of radial solutions of semilinear elliptic equations
E. Yanagida recently proved that the classical Matukuma equation with a given exponent has only one finite mass solution. We show how similar ideas can be exploited to obtain uniqueness results for other classes of equations as well as Matukuma equations with more general coefficients. One particular example covered is Δ u + u p ± u = 0 \Delta u + {u^p} \pm u = 0 , with p > 1 p > 1 . The key ingredients of the method are energy functions and suitable transformations. We also study general boundary conditions, using an extension of a recent result by Bandle and Kwong. Yanagida’s proof does not extend to solutions of Matukuma’s equation satisfying other boundary conditions. We treat these with a completely different method of Kwong and Zhang.
- University of Rochester United States
- University System of Ohio United States
- Argonne National Laboratory United States
- Wright State University United States
Statistics and Probability, Applied Statistics, Applied Mathematics, uniqueness, Oscillation, zeros of solutions, mean value theorems, etc. in context of PDEs, radial solution, energy functions, Mathematics and Statistics, Boundary value problems for second-order elliptic equations, positive solution, Nonlinear boundary value problems for linear elliptic equations, boundary value problem, Physical Sciences and Mathematics, Matukuma equations, semilinear elliptic equation, Mathematics
Statistics and Probability, Applied Statistics, Applied Mathematics, uniqueness, Oscillation, zeros of solutions, mean value theorems, etc. in context of PDEs, radial solution, energy functions, Mathematics and Statistics, Boundary value problems for second-order elliptic equations, positive solution, Nonlinear boundary value problems for linear elliptic equations, boundary value problem, Physical Sciences and Mathematics, Matukuma equations, semilinear elliptic equation, Mathematics
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