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Plancherel formula : ウィキペディア英語版
Plancherel theorem
In mathematics, the Plancherel theorem is a result in harmonic analysis, proven by Michel Plancherel in 1910. It states that the integral of a function's squared modulus is equal to the integral of the squared modulus of its frequency spectrum.
A more precise formulation is that if a function is in both ''L''1(R) and ''L''2(R), then its Fourier transform is in ''L''2(R), and the Fourier transform map is an isometry with respect to the ''L''2 norm. This implies that the Fourier transform map restricted to ''L''1(R) ∩ ''L''2(R) has a unique extension to a linear isometric map ''L''2(R) → ''L''2(R). This isometry is actually a unitary map. In effect, this makes it possible to speak of Fourier transforms of quadratically integrable functions.
Plancherel's theorem remains valid as stated on ''n''-dimensional Euclidean space R''n''. The theorem also holds more generally in locally compact abelian groups. There is also a version of the Plancherel theorem which makes sense for non-commutative locally compact groups satisfying certain technical assumptions. This is the subject of non-commutative harmonic analysis.
The unitarity of the Fourier transform is often called Parseval's theorem in science and engineering fields, based on an earlier (but less general) result that was used to prove the unitarity of the Fourier series.
In its common form:
:\int_^\infty f(x)g^
*(x)\operatorname\!x = \frac \int_^\infty F(k)G^
*(k)\operatorname\!k,
where
:\int_^\infty f(x)e^\operatorname\!x = F(k)
and
* denotes complex conjugate.
==See also==

*Plancherel theorem for spherical functions

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
ウィキペディアで「Plancherel theorem」の詳細全文を読む



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