CINECA IRIS Institutional Research Information System
IRIS è la soluzione IT che facilita la raccolta e la gestione dei dati relativi alle attività e ai prodotti della ricerca. Fornisce a ricercatori, amministratori e valutatori gli strumenti per monitorare i risultati della ricerca, aumentarne la visibilità e allocare in modo efficace le risorse disponibili.
EnglishWe give a structure result for the positive radial solutions of the following equation: Δpu + K(r)u|u|^{q-1} = 0 with some monotonicity assumptions on the positive function K(r). Here r = |x|, x ∈ ℝn; we consider the case when n > p > 1, and g > p* = n(p-1)/n-p. We continue the discussion started by Kawano et al. in [11], refining the estimates on the asymptotic behavior of Ground States with slow decay and we state the existence of S.G.S., giving also for them estimates on the asymptotic behavior, both as r → 0 and as r →. We make use of a Emden-Fowler transform which allow us to give a geometrical interpretation to the functions used in [11] and related to the Pohozaev identity. Moreover we manage to use techniques taken from dynamical systems theory, in particular the ones developed in [10] for the problems obtained by substituting the ordinary Laplacian Δ for the p-Laplacian Δp in the preceding equations.
| Titolo: | Classification of positive solutions of p-Laplace equation with a growth term |
| Autori: | |
| Data di pubblicazione: | 2004 |
| Rivista: | |
| Abstract: | We give a structure result for the positive radial solutions of the following equation: Δpu + K(r)u|u|^{q-1} = 0 with some monotonicity assumptions on the positive function K(r). Here r = |x|, x ∈ ℝn; we consider the case when n > p > 1, and g > p* = n(p-1)/n-p. We continue the discussion started by Kawano et al. in [11], refining the estimates on the asymptotic behavior of Ground States with slow decay and we state the existence of S.G.S., giving also for them estimates on the asymptotic behavior, both as r → 0 and as r →. We make use of a Emden-Fowler transform which allow us to give a geometrical interpretation to the functions used in [11] and related to the Pohozaev identity. Moreover we manage to use techniques taken from dynamical systems theory, in particular the ones developed in [10] for the problems obtained by substituting the ordinary Laplacian Δ for the p-Laplacian Δp in the preceding equations. |
| Handle: | http://hdl.handle.net/11566/39314 |
| Appare nelle tipologie: | 1.1 Articolo in rivista |
File in questo prodotto:
Copyright © 2021