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In the field of mathematical analysis, an interpolation inequality is an inequality of the form

u00Cu11α1u22α2unnαn,n2,

valid for all u0, ..., un in some (subsets of) vector spaces X0, ..., Xn equipped with norms ‖·‖0, ‖·‖1, ..., ‖·‖n, and where C is a constant independent of u0, ..., un and α1, ..., αn are some real powers. Usually, the elements u0, ..., un are all the same element u and only the norms differ (as in Ladyzhenskaya's inequality below), but some interpolation inequalities use different u0, ..., un (as in Young's inequality for convolutions below).

The main applications of interpolation inequalities lie in the theory of Sobolev spaces, where spaces of functions that have a non-integer number of derivatives are interpolated from the spaces of functions with integer number of derivatives. The abstract structure of interpolation inequalities is formalized in the notion of an interpolation space.

A simple example of an interpolation inequality — one in which all the uk are the same u, but the norms ‖·‖k are different — is Ladyzhenskaya's inequality for functions u: ℝ2 → ℝ, which states that whenever u is a compactly supported function such that both u and its gradientu are square integrable, it follows that the fourth power of u is integrable and

2|u(x)|4dx22|u(x)|2dx2|u(x)|2dx,

i.e.

uL424uL21/2uL21/2.

(Since Ladyzhenskaya's inequality considers compactly supported functions u, Friedrichs' inequality implies that the L2 norm of ∇u is equivalent to the H1 Sobolev norm of u, and so Ladyzhenskaya's inequality really does only treat a single function u, not distinct functions u0 = u1 = u and u2 = ∇u.)

Another simple example of an interpolation inequality — one in which the uk and the norms ‖·‖k are different — is Young's inequality for the convolution of two functions f, g: ℝd → ℝ:

fgLsfLrgLp,

where the exponents p, r and s ≥ 1 are related by

1r+1p=1+1s.

Examples of interpolation inequalities