Sturm–Picone comparison theorem

In mathematics, in the field of ordinary differential equations, the Sturm–Picone comparison theorem, named after Jacques Charles François Sturm and Mauro Picone, is a classical theorem which provides criteria for the oscillation and non-oscillation of solutions of certain linear differential equations in the real domain.

Let Template:Mvar, Template:Mvar for Template:Math be real-valued continuous functions on the interval Template:Math and let

1. ${\displaystyle (p_1(x)y^{\prime }{)}^{\prime }+q_1(x)y=0}$
2. ${\displaystyle (p_2(x)y^{\prime }{)}^{\prime }+q_2(x)y=0}$

be two homogeneous linear second order differential equations in self-adjoint form with

${\displaystyle 0<p_2(x)\le p_1(x)}$

and

${\displaystyle q_1(x)\le q_2(x).}$

Let Template:Mvar be a non-trivial solution of (1) with successive roots at Template:Mvar and Template:Mvar and let Template:Mvar be a non-trivial solution of (2). Then one of the following properties holds.

• There exists an Template:Mvar in Template:Math such that Template:Math or
• there exists a Template:Mvar in R such that Template:Math.

The first part of the conclusion is due to Sturm (1836),^[1] while the second (alternative) part of the theorem is due to Picone (1910)^[2][3] whose simple proof was given using his now famous Picone identity. In the special case where both equations are identical one obtains the Sturm separation theorem.^[4]

Template:Reflist

• Diaz, J. B.; McLaughlin, Joyce R. Sturm comparison theorems for ordinary and partial differential equations. Bull. Amer. Math. Soc. 75 1969 335–339 [1]
• Heinrich Guggenheimer (1977) Applicable Geometry, page 79, Krieger, Huntington Template:Isbn .
• Template:Cite book