Comptes Rendus
Foreword
Comptes Rendus. Mécanique, Volume 346 (2018) no. 10, pp. 887-889.
Published online:
DOI: 10.1016/j.crme.2018.07.001

Lutz Lesshafft 1, 2, 3; Peter Jordan 2, 3; Anurag Agarwal 3

1 Laboratoire d'Hydrodynamique, CNRS, École polytechnique, Palaiseau, France
2 Institut PPRIME, CNRS, Université de Poitiers, ENSMA, Poitiers, France
3 Department of Engineering, University of Cambridge, Cambridge, United Kingdom
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     language = {en},
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Lutz Lesshafft; Peter Jordan; Anurag Agarwal. Foreword. Comptes Rendus. Mécanique, Volume 346 (2018) no. 10, pp. 887-889. doi : 10.1016/j.crme.2018.07.001. https://comptes-rendus.academie-sciences.fr/mecanique/articles/10.1016/j.crme.2018.07.001/

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[2] J. Nichols; J. Kreitzman Acoustic sources in a complex supersonic jet, École polytechnique, Palaiseau, France, 28–30 September (2016), pp. 28-30

[3] S. Piantanida; V. Jaunet; J. Huber; W. Wolf; P. Nogueira; P. Jordan; A.V.G. Cavalieri Wavepacket modelling of jet-flap interaction noise, École polytechnique, Palaiseau, France, 28–30 September (2016)

[4] S. Piantanida; V. Jaunet; J. Huber; W.R. Wolf; P. Jordan; A.V.G. Cavalieri Scattering of turbulent-jet wavepackets by a swept trailing edge, J. Acoust. Soc. Am., Volume 140 (2016) no. 6, pp. 4350-4359

[5] V. Semilotov; S. Karabasov A far-field calibration-free low-order model for jet noise, École polytechnique, Palaiseau, France, 28–30 September (2016), pp. 28-30

[6] M.O. Cetin; S.R. Koh; M. Meinke; W. Schröder Computational analysis of exit conditions on the sound field of turbulent hot jets, C. R. Mecanique, Volume 346 (2018) no. 10, pp. 932-947

[7] A.P. Markesteijn; S.A. Karabasov CABARET solutions on graphics processing units for NASA jets: grid sensitivity and unsteady inflow condition effect, C. R. Mecanique, Volume 346 (2018) no. 10, pp. 948-963

[8] Z.-N. Wang; J. Tyacke; P. Tucker Large eddy simulation of serration effects on an ultra-high-bypass-ratio engine exhaust jet, C. R. Mecanique, Volume 346 (2018) no. 10, pp. 964-977

[9] P. Jordan; T. Colonius Wave packets and turbulent jet noise, Annu. Rev. Fluid Mech., Volume 45 (2013), pp. 173-195

[10] A. Agarwal; R. Henrywood; K. Kanjere Visually educed acoustic wavepackets in rectangular jets, École polytechnique, Palaiseau, France, 28–30 September (2016), pp. 28-30

[11] A.V.G. Cavalieri; P. Jordan; A. Agarwal; Y. Gervais Jittering wave-packet models for subsonic jet noise, J. Sound Vib., Volume 330 (2011) no. 18–19, pp. 4474-4492

[12] P. Jordan; T. Colonius; G.A. Bres; M. Zhang; A. Towne; S.K. Lele Modeling intermittent wavepackets and their radiated sound in a turbulent jet, Proceedings of the Summer Program, Center for Turbulence Research, Stanford University, Stanford, CA, USA, 2014, p. 241

[13] A.V.G. Cavalieri; A. Agarwal Coherence decay and its impact on sound radiation by wavepackets, J. Fluid Mech., Volume 748 (2014), pp. 399-415

[14] O.T. Schmidt; T. Colonius Intrinsic and extrinsic dynamics of a high-Reynolds-number turbulent jet, École polytechnique, Palaiseau, France, 28–30 September (2016), pp. 28-30

[15] J. Jeun; J.W. Nichols Input–output analysis of high-speed jet noise, École polytechnique, Palaiseau, France, 28–30 September (2016), pp. 28-30

[16] M. Mancinelli; R. Camussi Some applications of time-frequency decomposition in jet aeroacoustics, École polytechnique, Palaiseau, France, 28–30 September (2016), pp. 28-30

[17] L. Mancinelli; R. Camussi Acceleration and wall pressure fluctuations generated by an incompressible jet in installed configuration, C. R. Mecanique, Volume 346 (2018) no. 10, pp. 919-931 | DOI

[18] S. Beneddine; D. Sipp; A. Arnault; J. Dandois; L. Lesshafft Conditions for validity of mean flow stability analysis, J. Fluid Mech., Volume 798 (2016), pp. 485-504

[19] M. Natarajan; J.B. Freund; D.J. Bodony Global mode-based control of laminar and turbulent high-speed jets, C. R. Mecanique, Volume 346 (2018) no. 10, pp. 978-996

[20] D. Rodríguez; M.R. Jotkar; E.M. Gennaro Wavepacket models for subsonic twin jets using 3D parabolized stability equations, C. R. Mecanique, Volume 346 (2018) no. 10, pp. 890-902 | DOI

[21] G. Rigas; O. Schmidt; T. Colonius One-way spatial integration of Navier–Stokes equations: applications to jet flows, École polytechnique, Palaiseau, France, 28–30 September (2016), pp. 28-30

[22] J. Jeun; J.W. Nichols; M.R. Jovanović Input–output analysis of high-speed axisymmetric isothermal jet noise, Phys. Fluids, Volume 28 (2016) no. 4

[23] O. Semeraro; L. Lesshafft; V. Jaunet; P. Jordan Modeling of coherent structures in a turbulent jet as global linear instability wavepackets: theory and experiment, Int. J. Heat Fluid Flow, Volume 62 (2016), pp. 24-32

[24] O.T. Schmidt; A. Towne; G. Rigas; T. Colonius; G.A. Brès Spectral analysis of jet turbulence, 2017 (Preprint) | arXiv

[25] T. Suzuki; T. Colonius Instability waves in a subsonic round jet detected using a near-field phased microphone array, J. Fluid Mech., Volume 565 (2006), pp. 197-226

[26] A.V.G. Cavalieri; D. Rodríguez; P. Jordan; T. Colonius; Y. Gervais Wavepackets in the velocity field of turbulent jets, J. Fluid Mech., Volume 730 (2013), pp. 559-592

[27] K. Sasaki; A.V.G. Cavalieri; P. Jordan; O.T. Schmidt; T. Colonius; G.A. Brès High-frequency wavepackets in turbulent jets, J. Fluid Mech., Volume 830 (2017), p. R2 | DOI

[28] D.E.S. Breakey; P. Jordan; A.V.G. Cavalieri; P.A. Nogueira; O. Léon; T. Colonius; D. Rodríguez Experimental study of turbulent-jet wave packets and their acoustic efficiency, Phys. Rev. Fluids, Volume 2 (2017)

[29] P. Jordan; M. Zhang; G. Lehnasch; A.V.G. Cavalieri; G. Brès Modal and non-modal linear wavepacket dynamics in turbulent jets, École polytechnique, Palaiseau, France, 28–30 September (2016), pp. 28-30

[30] P. Jordan, M. Zhang, G. Lehnasch, A.V.G. Cavalieri, Modal and non-modal linear wavepacket dynamics in turbulent jets, in: 23rd AIAA/CEAS Aeroacoustics Conference, Denver, CO, USA, 5–9 June 2017, p. 3379.

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[32] A. Towne; S.K. Lele; T. Colonius Incorporating correlated nonlinear forcing in resolvent-mode-based jet-noise models, École polytechnique, Palaiseau, France, 28–30 September (2016), pp. 28-30

[33] O. Semeraro; F. Lusseyran; L. Pastur; P. Jordan Qualitative dynamics of wave packets in turbulent jets, Phys. Rev. Fluids, Volume 2 (2017) no. 9

[34] K. Oberleithner Exploration and control of coherent structures in swirl flames, École polytechnique, Palaiseau, France, 28–30 September (2016), pp. 28-30

[35] C. Cossu; Y. Hwang Self-sustaining processes at all scales in wall-bounded turbulent shear flows, Philos. Trans. R. Soc. A, Volume 375 (2017) no. 2089

[36] O. Tammisola; M. Juniper Coherent structures in a swirl injector at Re=4800 by nonlinear simulations and linear global modes, J. Fluid Mech., Volume 792 (2016), pp. 620-657

[37] W.C. Reynolds; A.K.M.F. Hussain The mechanics of an organized wave in turbulent shear flow. Part 3. Theoretical models and comparisons with experiments, J. Fluid Mech., Volume 54 (1972) no. 2, pp. 263-288

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