D-Index & Metrics Best Publications

D-Index & Metrics

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Engineering and Technology D-index 31 Citations 3,218 94 World Ranking 5767 National Ranking 148

Overview

What is he best known for?

The fields of study he is best known for:

  • Mechanics
  • Fluid dynamics
  • Control theory

Denis Sipp focuses on Reynolds number, Mathematical analysis, Flow, Mechanics and Vortex. Reynolds number and Incompressible flow are commonly linked in his work. His work on Resolvent as part of his general Mathematical analysis study is frequently connected to Singular value, thereby bridging the divide between different branches of science.

His Flow research incorporates themes from Environmental noise, Control theory, Control theory, Nonlinear system and Mean flow. His work in the fields of Mechanics, such as Bubble and Hydrodynamic stability, intersects with other areas such as Base flow and Eigenvalues and eigenvectors. His study in Vortex is interdisciplinary in nature, drawing from both Instability, Wavenumber and Wind tunnel.

His most cited work include:

  • Global stability of base and mean flows : a general approach and its applications to cylinder and open cavity flows (245 citations)
  • Sensitivity analysis and passive control of cylinder flow (236 citations)
  • Dynamics and Control of Global Instabilities in Open-Flows: A Linearized Approach (183 citations)

What are the main themes of his work throughout his whole career to date?

Mechanics, Flow, Reynolds number, Instability and Control theory are his primary areas of study. His study in Classical mechanics extends to Mechanics with its themes. His Flow research integrates issues from Compressible flow, Reduction, Applied mathematics and Nonlinear system.

In his study, which falls under the umbrella issue of Reynolds number, Reynolds stress is strongly linked to Mean flow. His Instability research includes elements of Acoustics, Vortex, Wake and Compressibility. His research in the fields of Reduced order and Optimal control overlaps with other disciplines such as Amplifier and System identification.

He most often published in these fields:

  • Mechanics (42.48%)
  • Flow (26.80%)
  • Reynolds number (22.22%)

What were the highlights of his more recent work (between 2018-2021)?

  • Mechanics (42.48%)
  • Turbulence (17.65%)
  • Mathematical analysis (18.30%)

In recent papers he was focusing on the following fields of study:

Denis Sipp mostly deals with Mechanics, Turbulence, Mathematical analysis, Nonlinear system and Resolvent. His research investigates the link between Mechanics and topics such as Wavelength that cross with problems in Vorticity and Measure. Many of his research projects under Turbulence are closely connected to Low frequency with Low frequency, tying the diverse disciplines of science together.

His work in Mathematical analysis addresses issues such as Reynolds stress, which are connected to fields such as Particle image velocimetry. His research integrates issues of Laminar-turbulent transition, Bounded function, Wavenumber and Reynolds number in his study of Nonlinear system. The study incorporates disciplines such as Applied mathematics and Mean flow in addition to Reynolds number.

Between 2018 and 2021, his most popular works were:

  • Linear iterative method for closed-loop control of quasiperiodic flows (17 citations)
  • A tale of two airfoils: resolvent-based modelling of an oscillator versus an amplifier from an experimental mean (16 citations)
  • Eddy viscosity for resolvent-based jet noise models (16 citations)

In his most recent research, the most cited papers focused on:

  • Mechanics
  • Fluid dynamics
  • Control theory

His scientific interests lie mostly in Mathematical analysis, Nonlinear system, Boundary layer, Turbulence and Harmonics. Resolvent is the focus of his Mathematical analysis research. His research brings together the fields of Reynolds number and Nonlinear system.

Denis Sipp has researched Reynolds number in several fields, including Applied mathematics and Mean flow. His research on Boundary layer also deals with topics like

  • Harmonic balance together with Forcing,
  • Shock which connect with Instability, Wing, Oblique shock and Laminar flow. Instability is a primary field of his research addressed under Mechanics.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Global stability of base and mean flows : a general approach and its applications to cylinder and open cavity flows

Denis Sipp;Anton Lebedev.
Journal of Fluid Mechanics (2007)

336 Citations

Sensitivity analysis and passive control of cylinder flow

Olivier Marquet;Denis Sipp;Laurent Jacquin.
Journal of Fluid Mechanics (2008)

322 Citations

Dynamics and Control of Global Instabilities in Open-Flows: A Linearized Approach

Denis Sipp;Olivier Marquet;Philippe Meliga;Alexandre Barbagallo.
Applied Mechanics Reviews (2010)

228 Citations

Closed-loop control of an open cavity flow using reduced-order models

Alexandre Barbagallo;Denis Sipp;Peter J. Schmid.
Journal of Fluid Mechanics (2009)

227 Citations

Kelvin waves and the singular modes of the Lamb–Oseen vortex

David Fabre;Denis Sipp;Laurent Jacquin.
Journal of Fluid Mechanics (2006)

148 Citations

Conditions for validity of mean flow stability analysis

Samir Beneddine;Denis Sipp;Anthony Arnault;Julien Dandois.
Journal of Fluid Mechanics (2016)

126 Citations

Global mode interaction and pattern selection in the wake of a disk: a weakly nonlinear expansion

Philippe Meliga;Jean-Marc Chomaz;Denis Sipp.
Journal of Fluid Mechanics (2009)

113 Citations

Amplifier and resonator dynamics of a low-Reynolds-number recirculation bubble in a global framework

Olivier Marquet;Denis Sipp;Jean-Marc Chomaz;Laurent Jacquin.
Journal of Fluid Mechanics (2008)

112 Citations

INSTABILITY AND UNSTEADINESS OF AIRCRAFT WAKE VORTICES

L. Jacquin;D. Fabre;D. Sipp;V. Theofilis.
Aerospace Science and Technology (2003)

106 Citations

Three-dimensional centrifugal-type instabilities of two-dimensional flows in rotating systems

Denis Sipp;Laurent Jacquin.
Physics of Fluids (2000)

101 Citations

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Best Scientists Citing Denis Sipp

Matthew P. Juniper

Matthew P. Juniper

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Peter J. Schmid

Peter J. Schmid

Imperial College London

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Dan S. Henningson

Royal Institute of Technology

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Steven L. Brunton

Steven L. Brunton

University of Washington

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Bernd R. Noack

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Beverley McKeon

California Institute of Technology

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Mark Christopher Thompson

Monash University

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Mihailo R. Jovanovic

Mihailo R. Jovanovic

University of Southern California

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Jean-Marc Chomaz

Jean-Marc Chomaz

École Polytechnique

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Clarence W. Rowley

Clarence W. Rowley

Princeton University

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Louis N. Cattafesta

Florida State University

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Spencer J. Sherwin

Spencer J. Sherwin

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Philipp Schlatter

Royal Institute of Technology

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Luca Brandt

Luca Brandt

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Kerry Hourigan

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