2003
DOI: 10.1016/s0167-2789(03)00225-2
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Towards a sufficient criterion for collapse in 3D Euler equations

Abstract: A sufficient integral criterion for a blow-up solution of the Hopf equations (the Euler equations with zero pressure) is found. This criterion shows that a certain positive integral quantity blows up in a finite time under specific initial conditions. Blow-up of this quantity means that solution of the Hopf equation in 3D can not be continued in the Sobolev space H 2 (R 3 ) for infinite time.

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Cited by 16 publications
(32 citation statements)
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“…In this case the expression (16) exactly coincides with the formula (30) given in [45] for the Lagrangian time evolution of the matrix of the first derivatives of the velocity which must satisfy the three-dimensional Hopf equation (10) (when (10)). In particular, in the one-dimensional case when n = 1, in the Lagrangian representation from (11) and (13), we obtain a particular case of the formula (16): (17) where a is the coordinate of a fluid particle at the initial time t ¼ 0.…”
Section: Exact Solution Of Hydrodynamic Equationssupporting
confidence: 59%
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“…In this case the expression (16) exactly coincides with the formula (30) given in [45] for the Lagrangian time evolution of the matrix of the first derivatives of the velocity which must satisfy the three-dimensional Hopf equation (10) (when (10)). In particular, in the one-dimensional case when n = 1, in the Lagrangian representation from (11) and (13), we obtain a particular case of the formula (16): (17) where a is the coordinate of a fluid particle at the initial time t ¼ 0.…”
Section: Exact Solution Of Hydrodynamic Equationssupporting
confidence: 59%
“…In particular, in the one-dimensional case when n = 1, in the Lagrangian representation from (11) and (13), we obtain a particular case of the formula (16): (17) where a is the coordinate of a fluid particle at the initial time t ¼ 0. The solution (17) also coincides with the formula (14) in [45] and describes the catastrophic process of collapse of a simple wave in a finite time t 0 whose estimate is given above on the basis of the solution to Eq. (13) in the case n ¼ 1 with the use of the Euler variables.…”
Section: Exact Solution Of Hydrodynamic Equationsmentioning
confidence: 62%
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