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Ivan Marusic
Researcher at University of Melbourne
Publications - 408
Citations - 19982
Ivan Marusic is an academic researcher from University of Melbourne. The author has contributed to research in topics: Turbulence & Reynolds number. The author has an hindex of 66, co-authored 388 publications receiving 17089 citations. Previous affiliations of Ivan Marusic include Monash University & University of Minnesota.
Papers
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Evidence of very long meandering features in the logarithmic region of turbulent boundary layers
Nicholas Hutchins,Ivan Marusic +1 more
TL;DR: In this article, a publisher's version of an article published in Journal of Fluid Mechanics © 2007 Cambridge University Press, Cambridge, UK. www.cambridge.edu.org/
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High–Reynolds Number Wall Turbulence
TL;DR: In this article, the authors review wall-bounded turbulent flows, particularly high-Reynolds number, zero-pressure gradient boundary layers, and fully developed pipe and channel flows.
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Wall-bounded turbulent flows at high Reynolds numbers: Recent advances and key issues
Ivan Marusic,Beverley McKeon,Peter A. Monkewitz,Hassan M. Nagib,Alexander Smits,Katepalli R. Sreenivasan +5 more
TL;DR: In this paper, the authors distill the salient advances of recent origin, particularly those that challenge textbook orthodoxy, and highlight some of the outstanding questions, such as the extent of the logarithmic overlap layer, the universality or otherwise of the principal model parameters, and the scaling of mean flow and Reynolds stresses.
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Large-scale amplitude modulation of the small-scale structures in turbulent boundary layers
TL;DR: In this paper, the authors present a method to detect the presence of brain cancer in the human brain using FLM, which is available at http://journals.cambridge.org/action/displayJournal?jid=FLM
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Large-scale influences in near-wall turbulence
Nicholas Hutchins,Ivan Marusic +1 more
TL;DR: Hot-wire data acquired in a high Reynolds number facility are used to illustrate the need for adequate scale separation when considering the coherent structure in wall-bounded turbulence and it is found that a large-scale motion in the log region becomes increasingly comparable to the near-wall cycle as the Reynolds number increases.