Viewing nonoscillatory second order linear differential equations from the angle of Riccati equations

Jaroslav Jaros, Takashi Kusano, Tomoyuki Tanigawa

Published 2020-06-20Version 1

We build an existence theory for nonoscillatory second order differential equations of the form (A) $(p(t)x')' = q(t)x, $ $p(t)$ and $q(t)$ being positive continuous functions on $[a,\infty)$, in which a crucial role is played by a pair of the Riccati differential equations (R1) $u' = q(t) - u^2/p(t)$, (R2) $ v' = 1/p(t) - q(t)v^2$, associated with (A). An essential part of the theory is the construction of a pair of linearly independent nonoscillatory solutions $x_1(t)$ and $x_2(t)$ of (A) enjoying explicit exponential-integral representations in terms of solutions $u_1(t)$ and $u_2(t)$ of (R1) or in terms of solutions $v_1(t)$ and $v_2(t)$ of (R2).