Jérôme LAURENT

Jérôme LAURENT

Assistant ingénieur au CNRS
Tél. : 01 80 96 30 76
Fax. : 01 80 96 33 55
Pièce : R22
Courriel : jerome.laurent (arobase) espci.fr

  • AI depuis 2001
  • Ingénieur CNAM Diplômé en 2007
  • Docteur en Physique en 2011

Équipe Détection, Caractérisation et Imagerie


Publications

2016

2016

Negative reflection of Lamb waves at a free edge: Tunable focusing and mimicking phase conjugation.
Gerardin, B., J. Laurent, C. Prada, and A. Aubry.
The Journal of the Acoustical Society of America 140, no. 1 (2016): 591.
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Particlelike wave packets in complex scattering systems.
Gerardin, B., J. Laurent, P. Ambichl, C. Prada, S. Rotter, and A. Aubry.
Physical Review B 94, no. 1 (2016).
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Laser beam shaping for enhanced Zero-Group Velocity Lamb modes generation.
Bruno, F., J. Laurent, P. Jehanno, D. Royer, and C. Prada.
Journal Of The Acoustical Society Of America 140, no. 4 (2016): 2829–2838.
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[op.8d.03] Measurement Of Arterial Stiffness By Ultrafast Echo: Comparison With Echotracking In Normotensive Subjects And Hypertensive Patients.
Marais, L., M. Pernot, H. Khettab, M. Tanter, E. Messas, M. Zidi, S. Laurent, and P. Boutouyrie.
Journal of hypertension 34 Suppl 2 (2016): e105–6.
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Spatial Laplace transform for complex wavenumber recovery and its application to the analysis of attenuation in acoustic systems.
Geslain, A., S. Raetz, M. Hiraiwa, M. A. Ghanem, S. P. Wallen, A. Khanolkar, N. Boechler, J. Laurent, C. Prada, A. Duclos et al.
Journal Of Applied Physics 120, no. 13 (2016).
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2015

2015

Laser induced zero-group velocity resonances in transversely isotropic cylinder.
Laurent, J., D. Royer, T. Hussain, F. Ahmad, and C. Prada.
Journal Of The Acoustical Society Of America 137, no. 6 (2015): 3325–3334.
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Investigation of interfacial stiffnesses of a tri-layer using Zero-Group Velocity Lamb modes.
Mezil, S., F. Bruno, S. Raetz, J. Laurent, D. Royer, and C. Prada.
Journal of the Acoustical Society of America 138, no. 5 (2015): 3202–3209.
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Effect of refracted light distribution on the photoelastic generation of zero-group velocity Lamb modes in optically low-absorbing plates.
Raetz, S., J. Laurent, T. Dehoux, D. Royer, B. Audoin, and C. Prada.
Journal of the Acoustical Society of America 138, no. 6 (2015): 3522–3530.
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2014

2014

Temporal behavior of laser induced elastic plate resonances.
Laurent, J., D. Royer, and C. Prada.
Wave Motion 51, no. 6 (2014): 1011–1020.
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Full Transmission and Reflection of Waves Propagating through a Maze of Disorder.
Gerardin, B., J. Laurent, A. Derode, C. Prada, and A. Aubry.
Physical Review Letters 113, no. 17 (2014).
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Holographic imaging of surface acoustic waves.
Bruno, F., J. Laurent, D. Royer, and M. Atlan.
Applied Physics Letters 104, no. 8 (2014).
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Non contact probing of interfacial stiffnesses between two plates by zero-group velocity Lamb modes.
Mezil, S., J. Laurent, D. Royer, and C. Prada.
Applied Physics Letters 105, no. 2 (2014).
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Non-destructive testing of composite plates by holographic vibrometry.
F. Bruno, J. Laurent, C. Prada, B. Lamboul, B. Passilly & M. Atlan.
J. Appl. Phys. 115 (2014): 154503.
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2011

Elastic weakening of a dense granular pack by acoustic fluidization: Slipping, compaction, and aging.
X. Jia, Th. Brunet & J. Laurent.
Phys. Rev. E. 84 (2011): 020301(R).
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Ultrasonic determination of the particle concentration in model suspensions and ice slurry.
V. Langlois, W. Gautherin, J. Laurent, L. Royon, L. Fournaison, A. Delahaye & X. Jia.
Int. J. Ref. 34, no. 8 (2011): 1972-1979.
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2009

Sound Scattering in Dense Granular Media.
X. Jia, J. Laurent, Y. Khidas, V. Langlois.
Chinese Science Bulletin 54, no. 23 (2009): 4327-4336.
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Mémoire d’ingénieur CNAM

Caractérisation des matériaux granulaires par méthode de résonance acoustique.
J. Laurent.
Mémoire d'ingénieur CNAM, sous la direction du Pr. X. Jia. (2007).
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Une partie des résultats obtenus durant mon mémoire d’ingénieur sont présentés dans l’ouvrage de P. A. Johnson & R. A. Guyer :
Nonlinear Mesoscopic Elasticity : The Complex Behaviour of Granular Media including Rocks and Soil, Wiley-VCH, Berlin, 1st Edition, (2009).

Thèse

Étude d'un matériau granulaire sec par ondes ultrasonores : effet non linéaire, atténuation et diffusion.
J. Laurent.
Thèse - spécialité Physique - sous la direction du Pr. X. Jia. (2011).
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PDF - 35.6 Mo
  • Publications, Proceedings, Posters
    PDF - 64.4 ko
  • Formation
    2008–2011 : Doctorat en Physique, Université Paris-Est.
    2005–2007 : Ingénieur électronique, CNAM (Paris).
    2001–2004 : D.E.S.T électronique, CNAM (Paris).
    1996–1998 : D.U.T Génie électronique (GEII), Université Jean Monnet (Saint-Etienne).

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