Takaŝi Kusano¹ and Manabu Naito²

Copyright © 2000 Takaŝi Kusano and Manabu Naito. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

An attempt is made to study the problem of existence of singular solutions to singular differential equations of the type (|y′|−α)′+q(t)|y|β=0,  (∗) which have never been touched in the literature. Here α and β are positive constants and q(t) is a positive continuous function on [0,∞). A solution with initial conditions given at t=0 is called singular if it ceases to exist at some finite point T∈(0,∞). Remarkably enough, it is observed that the equation (∗) may admit, in addition to a usual blowing-up singular solution, a completely new type of singular solution y(t) with the property that limt→T→0|y(t)|<∞  and  limt→T→0|y′(t)|=∞. Such a solution is named a black hole solution in view of its specific behavior at t=T. It is shown in particular that there does exist a situation in which all solutions of (∗) are black hole solutions.