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wave front set : ウィキペディア英語版
wave front set
In mathematical analysis, more precisely in microlocal analysis, the wave front (set) WF(''f'') characterizes the singularities of a generalized function ''f'', not only in space, but also with respect to its Fourier transform at each point. The term "wave front" was coined by Lars Hörmander around 1970.
==Introduction==

In more familiar terms, WF(''f'') tells not only ''where'' the function ''f'' is singular (which is already described by its singular support), but also ''how'' or ''why'' it is singular, by being more exact about the direction in which the singularity occurs. This concept is mostly useful in dimension at least two, since in one dimension there are only two possible directions. The complementary notion of a function being non-singular in a direction is ''microlocal smoothness''.
Intuitively, as an example, consider a function ƒ whose singular support is concentrated on a smooth curve in the plane at which the function has a jump discontinuity. In the direction tangent to the curve, the function remains smooth. By contrast, in the direction normal to the curve, the function has a singularity. To decide on whether the function is smooth in another direction ''v'', one can try to smooth the function out by averaging in directions perpendicular to ''v''. If the resulting function is smooth, then we regard ƒ to be smooth in the direction of ''v''. Otherwise, ''v'' is in the wavefront set.
Formally, in Euclidean space, the wave front set of ƒ is defined as the complement of the set of all pairs (''x''0,''v'') such that there exists a test function \phi\in C_0^\infty with \phi(''x''0) ≠ 0 and an open cone Γ containing ''v'' such that the estimate
:|(\phi f)^\wedge(\xi)| \le C_N(1+|\xi|)^\quad\mbox\ \xi\in\Gamma
holds for all positive integers ''N''. Here (\phi f)^\wedge denotes the Fourier transform. Observe that the wavefront set is conical in the sense that if (''x'',''v'') ∈ Wf(ƒ), then (''x'',λ''v'') ∈ Wf(ƒ) for all λ > 0. In the example discussed in the previous paragraph, the wavefront set is the set-theoretic complement of the image of the tangent bundle of the curve inside the tangent bundle of the plane.
Because the definition involves cutoff by a compactly supported function, the notion of a wave front set can be transported to any differentiable manifold ''X''. In this more general situation, the wave front set is a closed conical subset of the cotangent bundle ''T''
*
(''X''), since the ξ variable naturally localizes to a covector rather than a vector. The wave front set is defined such that its projection on ''X'' is equal to the singular support of the function.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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