One-way wave equation


A one-way wave equation is a partial differential equation used in scientific fields such as geophysics, whose solutions include only waves that propagate in one direction. In the one-dimensional case, the one-way wave equation allows wave propagation to be calculated without the complication of having both an outgoing and incoming wave. Several approximation methods use the 1D one-way wave equation for 3D seismic calculations.

One-dimensional case

The standard 2nd-order wave equation in one dimension can be written as:
where is the coordinate, is time, is the displacement, and is the wave velocity.
Due to the ambiguity in the direction of the wave velocity,, the equation does not constrain the wave direction and so has solutions propagating in both the forward and backward directions. The general solution of the equation is the solutions in these two directions is:
where and are equal and opposite displacements.
When the one-way wave problem is formulated, the wave propagation direction can be arbitrarily selected by keeping one of the two terms in the general solution.
Factoring the operator on the left side of the equation yields a pair of one-way wave equations, one with solutions that propagate forwards and the other with solutions that propagate backwards.
The forward- and backward-travelling waves are described respectively,
The one-way wave equations can also be derived directly from the characteristic specific acoustic impedance. In a longitudinal plane wave, the specific impedance determines the local proportionality of pressure and particle velocity :
The conversion of the impedance equation leads to:
A longitudinal plane wave of angular frequency has the displacement. The pressure and the particle velocity can be expressed in terms of the displacement :
These relations inserted into the equation above yield:
With the local wave velocity definition :
directly follows the 1st-order partial differential equation of the one-way wave equation:
The wave velocity can be set within this wave equation as or according to the direction of wave propagation.
For wave propagation in the direction of the unique solution is
and for wave propagation in the direction the respective solution is