Just discovered that our work (not only mine, of course) is cited by the three Annual Reviews of Fluid Mechanics. Isn’t it nice?
Finally, XPIV got it’s place in the row of 3D measurement techniques, including its ability to measure velocity gradients. This is in-line with the 3D-PTV work we keep doing. Unfortunately, XPIV is not being further developed anywhere in the world, as far as we know.
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Federico Toschi, Eberhard Bodenschatz The Lagrangian description of turbulence is characterized by a unique conceptual simplicity and by an immediate connection with the physics of dispersion and mixing. In this article, we report some motivations behind the Lagrangian description of … |
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James M. Wallace, Petar V. Vukoslavčević This article reviews the principal experimental methods currently available to simultaneously measure all the terms of the velocity gradient tensor of turbulent flows. These methods have been available only for a little more than 20 years. They have … |
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Juan P.L.C. Salazar, Lance R. Collins
Two-particle dispersion is of central importance to a wide range of natural and industrial applications. It has been an active area of research since Richardson’s (1926) seminal paper. This review emphasizes recent results from experiments, high-end …
