The cubic nonlinear wave and Klein-Gordon equations have
been studied on R, on R^2, and on R^3.
This kind of equation displays a class of solutions with a peculiar dispersion law. To show explicitly this, let us consider the massless equation
being . An exact solution of this equation is given by
being sn a Jacobi elliptic function and two integration constants, when
We see that we started with an equation without a mass term but the exact solution describes a wave with a dispersion relation proper to a massive solution. This can be seen as the superposition of an infinite number of massive linear waves through a Fourier series of the Jacobi function, that is
being an elliptic integral. We recognize the spectrum
Similarly, when there is a mass term as in
the exact solution is given by
being now the dispersion relation
Finally, we can write down the exact solution for the case
that is given by
being and the following dispersion relation holds
So, this wave solutions are interesting as, notwithstanding we started with an equation with a wrong mass sign, the dispersion relation has the right one. Besides, Jacobi function has no real zeros and so the field is never zero. This effect is known as spontaneous breaking of symmetry in physics.