Limiting amplitude principle explained

In mathematics, the limiting amplitude principle is a concept from operator theory and scattering theory used for choosing a particular solution to the Helmholtz equation. The choice is made by considering a particular time-dependent problem of the forced oscillations due to the action of a periodic force.The principle was introduced by Andrey Nikolayevich Tikhonov and Alexander Andreevich Samarskii.^[1] It is closely related to the limiting absorption principle (1905) and the Sommerfeld radiation condition (1912).The terminology -- both the limiting absorption principle and the limiting amplitude principle -- was introduced by Aleksei Sveshnikov.^[2]

Formulation

To find which solution to the Helmholz equation with nonzero right-hand side

\Deltav(x)+k²v(x)=-F(x), x\in\R^3,

with some fixed

k>0

, corresponds to the outgoing waves,one considers the wave equation with the source term,

^-i, t\ge0, x\in\R^3,

with zero initial data

u(x,0)=0,\partial_tu(x,0)=0

. A particular solution to the Helmholtz equation corresponding to outgoing waves is obtained as the limit

v(x)=\lim_t\tou(x,t)eⁱ

for large times.^[3]

Tikhonov, A.N. and Samarskii, A.A.. On the radiation principle. Zh. Eksper. Teoret. Fiz.. 243–248. 18. 2. 1948.
Sveshnikov, A.G.. Radiation principle. Doklady Akademii Nauk SSSR . Novaya Seriya. 917–920. 5. 1950. 0040.41903.
Book: Smirnov, V.I.. Course in Higher Mathematics. 4. Moscow, Nauka. 1974. 6.