Dini test

In mathematics, the Dini and Dini–Lipschitz tests are highly precise tests that can be used to prove that the Fourier series of a function converges at a given point. These tests are named after Ulisse Dini and Rudolf Lipschitz.^[1]

Definition

Let Template:Mvar be a function on [0,2Template:Pi], let Template:Mvar be some point and let Template:Mvar be a positive number. We define the local modulus of continuity at the point Template:Mvar by

${\displaystyle {\omega }_f(\delta ;t)=\underset{|\epsilon |\le \delta }{\max }|f(t)-f(t+\epsilon )|}$

Notice that we consider here Template:Mvar to be a periodic function, e.g. if t = 0Script error: No such module "Check for unknown parameters". and Template:Mvar is negative then we define f(ε) = f(2π + ε)Script error: No such module "Check for unknown parameters"..

The global modulus of continuity (or simply the modulus of continuity) is defined by

${\displaystyle {\omega }_f(\delta )=\underset{t}{\max }{\omega }_f(\delta ;t)}$

With these definitions we may state the main results:

Theorem (Dini's test): Assume a function Template:Mvar satisfies at a point Template:Mvar that

${\displaystyle {\displaystyle \underset{0}{\overset{\pi }{\int }}}\frac{1}{\delta }{\omega }_f(\delta ;t)\mathrm{d}\delta <\mathrm{\infty }.}$

Then the Fourier series of Template:Mvar converges at Template:Mvar to f(t)Script error: No such module "Check for unknown parameters"..

For example, the theorem holds with ω_f = log⁻²(Template:Sfrac)Script error: No such module "Check for unknown parameters". but does not hold with log⁻¹(Template:Sfrac)Script error: No such module "Check for unknown parameters"..

Theorem (the Dini–Lipschitz test): Assume a function Template:Mvar satisfies

${\displaystyle {\omega }_f(\delta )=o{(\log \frac{1}{\delta })}^{-1}.}$

Then the Fourier series of Template:Mvar converges uniformly to Template:Mvar.

In particular, any function that obeys a Hölder condition satisfies the Dini–Lipschitz test.

Precision

Both tests are the best of their kind. For the Dini-Lipschitz test, it is possible to construct a function Template:Mvar with its modulus of continuity satisfying the test with [[Big O notation|Template:Mvar instead of Template:Mvar]], i.e.

${\displaystyle {\omega }_f(\delta )=O{(\log \frac{1}{\delta })}^{-1}.}$

and the Fourier series of Template:Mvar diverges. For the Dini test, the statement of precision is slightly longer: it says that for any function Ω such that

${\displaystyle {\displaystyle \underset{0}{\overset{\pi }{\int }}}\frac{1}{\delta }\mathrm{\Omega }(\delta )\mathrm{d}\delta =\mathrm{\infty }}$

there exists a function Template:Mvar such that

${\displaystyle {\omega }_f(\delta ;0)<\mathrm{\Omega }(\delta )}$

and the Fourier series of Template:Mvar diverges at 0.

See also

• Convergence of Fourier series
• Dini continuity
• Dini criterion

References

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