Integral geometry of Euler equations
classification
🧮 math.AP
math.DG
keywords
eulerequationequationsfunctiongeometryintegralsupportedaffine
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We develop an integral geometry of stationary Euler equations defining some function $w$ on the Grassmannian of affine lines in the space. This function depends on a putative compactly supported solution $v$ of the system, and we deduce a linear differential equation for $w$. We prove also that the purported annulation of $w$ implies that locally supported solutions of the steady Euler equation in $\mathbb R^3$ are zero.
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