D. Alleyne and P. Cawley, A two-dimensional Fourier transform method for the measurement of propagating multimode signals, J. Acoust. Soc. Am, vol.89, pp.1159-1168, 1991.

D. Alleyne and P. Cawley, Optimization of Lamb wave inspection techniques, NDT E Int, vol.25, pp.11-22, 1992.

D. Alleyne and P. Cawley, The interaction of Lamb waves with defects, IEEE Trans. Ultrason. Ferroelectr. Freq. Control, vol.39, pp.381-397, 1992.

F. Baqu-e, F. Jadot, R. Marlier, J. F. Saillant, V. Delalande et al., In service inspection and repair of the sodium cooled ASTRID reactor prototype, presented at the International Congress on Advances in Nuclear Power Plants (ICAPP'2015), 2011.

, Color online) Measurement of leaky attenuation in the second plate: comparison between the EBM data for two plates (lines), FEM simulations (þ), and experimental data measured with STFT (). Attenuation is expressed in Np/cm multiplied by the plate thickness in mm

. Kauffmann, J. Acoust. Soc. Am, vol.145, issue.2, 2019.

F. Baqu-e, F. Reverdy, J. Augem, and J. Sibilo, Development of tools, instrumentation and codes for improving periodic examination and repair of SFRs, Sci. Technol. Nucl. Install, p.718034, 2012.

H. L. Bertoni and T. Tamir, Unified theory of Rayleigh-angle phenomena for acoustic beams at liquid-solid interfaces, Appl. Phys, vol.2, pp.157-172, 1973.

M. Castaings, C. Bacon, B. Hosten, and M. V. Predoi, Finite element predictions for the dynamic response of thermo-viscoelastic material structures, J. Acoust. Soc. Am, vol.115, pp.1125-1133, 2004.

M. Castaings, E. Le-clezio, and B. Hosten, Modal decomposition method for modeling the interaction of Lamb waves with cracks, J. Acoust. Soc. Am, vol.112, pp.2567-2582, 2002.
URL : https://hal.archives-ouvertes.fr/hal-01804529

C. W. Chan and P. Cawley, Lamb waves in highly attenuative plastic plates, J. Acoust. Soc. Am, vol.104, pp.874-881, 1998.

D. E. Chimenti and S. I. Rokhlin, Relationship between leaky Lamb modes and reflection coefficient zeroes for a fluid-coupled elastic layer, J. Acoust. Soc. Am, vol.88, pp.1603-1611, 1990.

G. A. Coquin, Attenuation of guided waves in isotropic viscoelastic materials, J. Acoust. Soc. Am, vol.36, pp.1074-1080, 1964.

G. Corneloup, M. Ploix, J. Chaix, I. Lillamand, and F. Baqu-e, Potential of ultrasounds for NDT of a structure located behind parallel immersed plates, AIP Conf. Proc, vol.1335, pp.1695-1700, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01300017

F. Coulouvrat, M. Rousseau, O. Lenoir, and J. L. Izbicki, Lambtype waves in a symmetric solid-fluid-solid trilayer, Acustica, vol.84, pp.12-20, 1998.

V. Dayal and V. K. Kinra, Leaky Lamb waves in an anisotropic plate I: An exact solution and experiments, J. Acoust. Soc. Am, vol.85, pp.2268-2276, 1989.

M. S. Harb and F. G. Yuan, A rapid, fully non-contact, hybrid system for generating Lamb wave dispersion curves, Ultrasonics, vol.61, pp.62-70, 2015.

T. Hayashi and D. Inoue, Calculation of leaky Lamb waves with a semi-analytical finite element method, Ultrasonics, vol.54, pp.1460-1469, 2014.

P. Kauffmann, M. Ploix, J. Chaix, C. Gueudr-e, G. Corneloup et al., Non-destructive testing of nuclear structures behind screen using leaky Lamb waves, 45th Annual Review of Progress in Quantitative Nondestructive Evaluation (QNDE 2018), 2018.
URL : https://hal.archives-ouvertes.fr/hal-02127115

P. Kauffmann, M. Ploix, J. Chaix, C. Gueudr-e, G. Corneloup et al., Study of Lamb waves for non-destructive testing behind screens, ANIMMA 2017-Advancements in Nuclear Instrumentation Measurement Methods and their Applications, 2018.

K. Kobayashi, Relationship between speed of Lamb wave and measurement error on distance, Jpn. J. Appl. Phys, vol.33, pp.3115-3120, 1994.

G. Lindner, H. Faustmann, S. Frankenberger, M. Munch, K. Pflaum et al., Versatile acoustic waveguide sensor for liquids based on multiple mode conversion at solid-liquid interfaces, IEEE Ultrason. Symp, pp.1181-1184, 2006.

L. Dean-ben, X. Trillo, C. Doval, A. F. Fernandez, and J. L. , Phase and group velocity measurement of ultrasonic guided wavetrains in plates by pulsed TV holography, J. Acoust. Soc. Am, vol.127, pp.2210-2219, 2010.

L. G. Merkulov, Damping of normal modes in a plate immersed in a liquid, Sov. Phys. Acoust, vol.10, pp.169-173, 1964.

J. Minonzio, J. Foiret, M. Talmant, and P. Laugier, Impact of attenuation on guided mode wavenumber measurement in axial transmission on bone mimicking plates, J. Acoust. Soc. Am, vol.130, pp.3574-3582, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01394307

A. H. Nayfeh, Wave Propagation In Layered Anisotropic Media: With Applications to Composites, North-Holland Series in Applied Mathematics and Mechanics, 1995.

A. H. Nayfeh and P. B. Nagy, Excess attenuation of leaky Lamb waves due to viscous fluid loading, J. Acoust. Soc. Am, vol.101, pp.2649-2658, 1997.

M. Niethammer, L. J. Jacobs, J. Qu, J. , and J. , Time-frequency representation of Lamb waves using the reassigned spectrogram, J. Acoust. Soc. Am, vol.107, pp.19-24, 2000.

C. A. Paget and M. A. Rehman, Multimodal location algorithm for Lamb waves propagating through anisotropic materials, Proceedings of Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems, 2017.

B. Pavlakovic, M. Lowe, D. Alleyne, and P. Cawley, Disperse: A general purpose program for creating dispersion curves, Review of Progress in Quantitative Nondestructive Evaluation, pp.185-192, 1997.

A. Pilarski, J. J. Ditri, and J. L. Rose, Remarks on symmetric Lamb waves with dominant longitudinal displacements, J. Acoust. Soc. Am, vol.93, pp.2228-2230, 1993.

C. Potel and ,. De-belleval, Acoustic propagation in anisotropic periodically multilayered media: A method to solve numerical instabilities, J. Appl. Phys, vol.74, pp.2208-2215, 1993.

C. Potel, J. De-belleval, E. Genay, and P. Gatignol, Behavior of Lamb waves and multilayered Rayleigh waves in an anisotropic periodically multilayered medium application to the long-wave length domain, Acust. Acta Acust, vol.82, pp.738-748, 1996.

J. L. Rose, Ultrasonic Waves in Solid Media, 1999.

M. Schmitt, K. Schmidt, S. Olfert, J. Rautenberg, G. Lindner et al., Detection of coatings within liquid-filled tubes and containers by mode conversion of leaky Lamb waves, J. Sens. Sens. Syst, vol.2, pp.73-84, 2013.

A. E. Takiy, C. Kitano, R. T. Higuti, S. C. Granja, V. T. Prado et al., Ultrasound imaging of immersed plates using high-order Lamb modes at their low attenuation frequency bands, Mech. Syst. Signal Process, vol.96, pp.321-332, 2017.

I. A. Viktorov, Rayleigh and Lamb Waves: Physical Theory and Applications, softcover reprint of the original, 2013.

P. D. Wilcox, A rapid signal processing technique to remove the effect of dispersion from guided wave signals, IEEE Trans. Ultrason. Ferroelectr. Freq. Control, vol.50, pp.419-427, 2003.

P. D. Wilcox, M. J. Lowe, and P. Cawley, Mode and transducer selection for long range Lamb wave inspection, J. Intell. Mater. Syst. Struct, vol.12, pp.553-565, 2001.

P. D. Wilcox, M. J. Lowe, and P. Cawley, The effect of dispersion on long-range inspection using ultrasonic guided waves, NDT E Int, vol.34, pp.1-9, 2001.

Y. Xu and W. Hu, Wideband dispersion removal and mode separation of Lamb waves based on two-component laser interferometer measurement, Chin. Phys. B, vol.26, p.94301, 2017.