Mathias FINK

Mathias FINK

Professeur à l'ESPCI
sur la chaire Georges Charpak

Tél. : 01 80 96 30 69
Fax. : 01 80 96 33 55
Pièce : R51
Courriel : Mathias.Fink (arobase) espci.fr

CV détaillé

Je m’intéresse aux aspects les plus fondamentaux de la physique des ondes en milieu complexe et j’applique et valorise ces recherches aussi bien dans le domaine de l’imagerie que celui de la transmission d’informations. Mes recherches ont débouché sur de nombreuses applications qui vont de la médecine, à la défense, en passant par les télécommunications, la géophysique et l’interface homme-machine.

Après une thèse de 3° cycle en physique des solides, je me suis lancé dans l’aventure de l’imagerie médicale et mon travail de thèse d’Etat, auprès de Pierre Alais, a débouché sur la réalisation du premier échographe ultrasonore médical à haute résolution fonctionnant en temps réel (1978). En 1981, j’ai été nommé Professeur à l’Université de Strasbourg puis je suis parti comme professeur invité à l’Université d’Irvine dans le département de radiologie. De retour des USA, j’ai rejoint Paris où j’ai créé en 1990 à l’ESPCI le Laboratoire Ondes et Acoustique qui deviendra en 2009 l’Institut Langevin qui regroupe aujourd’hui une centaine de chercheurs sur la thématique « Ondes et Images ».

Mes recherches ont donné lieu à plusieurs découvertes et à la création de 6 sociétés innovantes (Echosens, Sensitive Object, Supersonic Imagine, Time-Reversal Communications, Cardiawave et GreenerWave) qui emploient près de 400 personnes. J’ai dirigé plus de 60 thèses et déposé plus de 70 brevets. Je suis l’auteur ou le co-auteur de plus de 400 articles scientifiques dans des revues avec comité de lecture. J’ai été le premier universitaire à être élu en 2008 comme Professeur au Collège de France sur la Chaire d’Innovation Technologique.

En exploitant les symétries de l’équation des ondes et l’arrivée dans les années 80 des premières mémoires électroniques rapides de grande capacité, j’ai proposé en 1987 le concept de « miroirs à retournement temporel » qui permet de faire revivre à une onde sa vie passée dans les milieux les plus complexes. Puis avec mon équipe, nous avons réalisé de tels miroirs pour différents types d’ondes (sonores, ultrasonores, sismiques, électromagnétiques, et vagues) et nous avons testé expérimentalement leur efficacité dans les milieux de propagation les plus variés. Le résultat le plus étonnant de cette recherche a été de montrer que, plus le milieu de propagation est complexe, plus il est facile de faire revivre à une onde sa vie passée. La complexité devient un atout et une unique antenne à « retournement temporel », immergée dans un milieu diffusant ou réverbérant, permet de focaliser une onde sur une tache dont la dimension ne dépend plus de la taille de l’antenne !! Ces résultats surprenants ont depuis été à l’origine de nombreuses recherches dans la communauté des mathématiciens, des opticiens et dans le domaine des télécommunications. Puis, avec Geoffroy Lerosey, Fabrice Lemoult, Julien de Rosny et Arnaud Tourin, nous avons montré, qu’on pouvait créer, par retournement temporel, des taches focales bien plus petites que la longueur d’onde en introduisant dans le milieu de propagation un matériau localement résonant structuré à une échelle sub-longueur d’onde (c’est le concept de « Resonant Metalens »).

Parallèlement à cette recherche sur les limites de la diffraction, j’ai exploré l’approche « retournement temporel » en imagerie, et avec ma collègue Claire Prada, nous avons introduit les concepts de retournement temporel itératif et d’opérateur de retournement temporel qui permettent de revisiter les techniques d’imagerie en milieu hétérogène en introduisant une approche matricielle de l’imagerie.

Avec mon équipe, j’ai valorisé ces concepts en développant de nombreuses applications comme :

  • la réalisation d’un lithotripteur à retournement temporel qui traque et auto-focalise des ondes de choc ultrasonores uniquement sur les lithiases rénales et vésiculaires (avec Jean-Louis Thomas),
  • un système de thérapie du cerveau par ultrasons qui permet de focaliser de façon optimale des ondes ultrasonores à travers la boite crânienne (avec Mickael Tanter et Jean-François Aubry),
  • le développement d’objets tactiles intelligents faisant appel au retournement temporel des bruits générés par les impacts de doigts sur les objets (recherche conduite avec mon collègue Ros-Kiri Ing qui a créé la Société Sensitive Object vendue à TYCO),
  • le développement de système de télécommunications électromagnétiques en milieu urbain ou dans des bâtiments par retournement temporel (avec Julien de Rosny, Geoffroy Lerosey et Arnaud Tourin : société Time-Reversal Communications vendue à ATOS),
  • le développement de nouvelles méthodes de contrôle non-destructif pour l’Aéronautique (avec Claire Prada),
  • le développement de radar et de sonar à retournement temporel pour voir derrière les murs ou pour détecter des objets dans les petits fonds marins (avec Claire Prada et Julien de Rosny).

Parallèlement aux recherches sur les miroirs à retournement temporel, j’ai initié et développé un deuxième thème de recherche dans le domaine de l’imagerie médicale : l’imagerie multi-ondes. J’ai introduit les concepts de « Transient Elastography » et de « Supersonic Shear Wave Imaging », deux méthodes qui permettent de réaliser des images quantitatives de l’élasticité des tissus en observant la propagation d’ondes de cisaillement BF à l’aide d’ultrasons. Ces recherches se sont concrétisés par la commercialisation de deux appareils très innovants : le Fibroscan et l’Aixplorer par deux des sociétés créées à partir de mon laboratoire : Echosens et Supersonic Imagine.

C’est d’abord dans le cadre des thèses de Stefan Catheline et de Laurent Sandrin que nous avons développé un premier appareil de mesure de l’élasticité qui a débouché en 2001 sur la création par Laurent Sandrin d’une première start-up ECHOSENS (140 personnes) qui commercialise le Fibroscan qui quantifie le degré de fibrose des pathologies hépatiques. Cet appareil connait un très grand succès international en hépatologie et est devenu le gold standard mondial dans la mesure du degré de fibrose. Plus de 5000 Fibroscans ont été installés dans le monde.

Puis, dans un deuxième temps, en combinant cette recherche avec la technologie des miroirs à retournement temporel, j’ai imaginé et, avec mon équipe, nous avons réalisé un appareil beaucoup plus sophistiqué, permettant d’obtenir des images quantitatives de l’élasticité des organes avec une précision millimétrique. Pour cela nous avons mis au point le premier imageur ultrasonore ultrarapide au monde (10.000 images/s) à partir duquel j’ai introduit le concept de « Shear Wave Elastography ». Avec Jacques Souquet, Jeremy Bercoff (mon thésard sur ce sujet), Mickael Tanter et Claude Cohen-Bacrie nous avons créé en 2005 la société SUPERSONIC IMAGINE qui compte aujourd’hui plus de 175 personnes. Supersonic Imagine commercialise depuis le début 2009 l’ « Aixplorer » qui a été vendu à plus de 2300 exemplaires dans le monde. Les applications de cette technologie sont très nombreuses : cancer du sein et de la thyroïde, cancer du foie, cancer de la prostate, maladie cardiovasculaire, pathologie musculo-squelettique, œil, peau...

Par la suite j’ai apporté de nombreuses améliorations au concept d’imagerie ultrarapide. La plus significative étant l’invention du mode « Coherent Plane-Wave Compounding » qui est désormais le gold standard en imagerie ultrarapide. J’ai aussi proposé et testé un nouveau mode d’imagerie que j’ai qualifié de BTI (Backscattering Tensor Imaging) et qui permet d’imager et de traquer par ultrasons la direction des fibres musculaires dans le cœur avec une résolution sub-millimétrique.

Parallèlement à ces applications médicales, je travaille actuellement sur plusieurs autres sujets.

Les uns concernent la physique des ondes la plus fondamentale avec le concept de « Miroir Temporel Instantané » que j’ai introduit récemment avec Emmanuel Fort et qui permet d’imaginer des « matériaux temporels » aux propriétés étonnantes revisitant à la fois les concepts d’holographie et la façon dont une antenne se couple à un milieu de propagation. Ces idées ont d’abord été vérifiées dans le domaine des vagues à la surface de l’eau et leur généralisation à la plasmonique et à la mécanique quantique motive beaucoup de groupes.

J’ai aussi initié, depuis une demi-douzaine d’années, une recherche sur les métasurfaces adaptatives. J’ai été ainsi à l’origine avec Geoffroy Lerosey du développement de « miroirs intelligents » pour les ondes électromagnétiques qui améliorent la qualité des communications dans les bâtiments en focalisant les ondes radio sur les téléphones portables (création en 2015 de la société GreenerWave). Récemment, j’ai généralisé ces idées dans le domaine du contrôle du son en développant des panneaux acoustiques modulables qui peuvent contrôler les ondes sonores dans une pièce bruitée pour créer, par exemple, une zone de silence à un endroit quelconque. Ces recherches ont données lieu à une intense collaboration avec l’Université de Hong Kong HKUST.

Je travaille aussi dans le cadre de l’ERC Synergy Helmholtz que j’ai obtenu en partenariat avec l’Institut de La Vison sur le développement de nouvelles méthodes d’imagerie optique en milieu diffusant (Smart OCT) utilisant le concept d’opérateur de retournement temporel. Ces approches que nous développons avec Alexandre Aubry et Claude Boccara permettent à la fois de multiplier par deux la profondeur d’inspection en microscopie optique et de corriger les aberrations optiques en exploitant la mesure de la matrice de réflexion optique. Les principales applications concernent l’œil. Dans le même ordre d’idée, J’ai proposé de mesurer et d’exploiter un nouveau type de matrice : la matrice de transfert acousto-optique pour imager des tissus diffuseurs en profondeur avec une résolution optique.

Enfin, avec mon collègue Ros Kiri Ing, je participe au développement du premier imageur ultrasonore sans contact des vibrations de la surface du corps humain qui devrait permettre de détecter des maladies cardio-respiratoires sans avoir a touché le patient.

Publications

Left-handed band in an electromagnetic metamaterial induced by sub-wavelength multiple scattering.
Yves, S., T. Berthelot, M. Fink, G. Lerosey, and F. Lemoult.
Applied Physics Letters 114, no. 11 (2019).
toggle visibility
In vivo high-resolution human retinal imaging with wavefront-correctionless full-field OCT.
Xiao, P., V. Mazlin, K. Grieve, J. Sahel, M. Fink, and A. C. Boccara.
Optica 5 (2018): 409–412.
toggle visibility
In vivo high resolution human corneal imaging using full-field optical coherence tomography.
Mazlin, V., P. Xiao, E. Dalimier, K. Grieve, K. Irsch, J. Sahel, M. Fink, and A. C. Boccara.
Biomedical Optics Express 9 (2018): 557–568.
toggle visibility
Active Control of the Spoof Plasmon Propagation in Time Varying and Non-reciprocal Metamaterial.
Ourir, A., and M. Fink.
Scientific Reports 9, no. 1 (2019).
toggle visibility
Choroidal vasculature imaging with laser doppler holography.
Puyo, L., M. Paques, M. Fink, J. A. Sahel, and M. Atlan.
Biomedical Optics Express 10, no. 2 (2019).
toggle visibility
Probing dynamic processes in the eye at multiple spatial and temporal scales with multimodal full field OCT.
Scholler, J., V. Mazlin, O. Thouvenin, K. Groux, P. Xiao, J. A. Sahel, M. Fink, C. Boccara, and K. Grieve.
Biomedical Optics Express 10, no. 2 (2019): 731–746.
toggle visibility
Controlling light in complex media beyond the acoustic diffraction-limit using the acousto-optic transmission matrix.
Katz, O., F. Ramaz, S. Gigan, and M. Fink.
Nature Communications 10, no. 1 (2019).
toggle visibility
Optimally diverse communication channels in disordered environments with tuned randomness.
del Hougne, P., M. Fink, and G. Lerosey.
Nature Electronics 2, no. 1 (2019): 36–41.
toggle visibility
Measuring Dirac Cones in a Subwavelength Metamaterial.
Yves, S., T. Berthelot, M. Fink, G. Lerosey, and F. Lemoult.
Physical Review Letters 121, no. 26 (2018).
toggle visibility
Observation of the Talbot effect with water waves.
Bakman, A., S. Fishman, M. Fink, E. Fort, and S. Wildeman.
American Journal of Physics 87, no. 1 (2019): 38–43.
toggle visibility
In vivo laser Doppler holography of the human retina.
Puyo, L., M. Paques, M. Fink, J. A. Sahel, and M. Atlan.
Biomedical Optics Express 9, no. 9 (2018): 4113–4129.
toggle visibility
Layer potential approach for fast eigenvalue characterization of the Helmholtz equation with mixed boundary conditions.
Dupré, M., M. Fink, J. Garnier, and G. Lerosey.
Computational and Applied Mathematics 37, no. 4 (2018): 4675–4685.
toggle visibility
Precise Localization of Multiple Noncooperative Objects in a Disordered Cavity by Wave Front Shaping.
Del Hougne, P., M. F. Imani, M. Fink, D. R. Smith, and G. Lerosey.
Physical Review Letters 121, no. 6 (2018).
toggle visibility
Classical analog of the Unruh effect.
Leonhardt, U., I. Griniasty, S. Wildeman, E. Fort, and M. Fink.
Physical Review A 98, no. 2 (2018).
toggle visibility
Towards anti-causal Green’s function for three-dimensional sub-diffraction focusing.
Ma, G., X. Fan, F. Ma, J. de Rosny, P. Sheng, and M. Fink.
Nature Physics 14, no. 6 (2018): 608–612.
toggle visibility
Shaping reverberating sound fields with an actively tunable metasurface.
Ma, G., X. Fan, P. Sheng, and M. Fink.
Proceedings of the National Academy of Sciences of the United States of America 115, no. 26 (2018): 6638–6643.
toggle visibility
Airborne ultrasound surface motion camera: Application to seismocardiography.
Shirkovskiy, P., A. Laurin, N. Jeger-Madiot, D. Chapelle, M. Fink, and R. K. Ing.
Applied Physics Letters 112, no. 21 (2018).
toggle visibility
Dynamic Metasurface Aperture as Smart Around-the-Corner Motion Detector.
Del Hougne, P., M. F. Imani, T. Sleasman, J. N. Gollub, M. Fink, G. Lerosey, and D. R. Smith.
Scientific Reports 8, no. 1 (2018).
toggle visibility
Towards a quantum time mirror for non-relativistic wave packets.
Reck, P., C. Gorini, A. Goussev, V. Krueckl, M. Fink, and K. Richter.
New Journal of Physics 20, no. 3 (2018).
toggle visibility
Shaping Microwave Fields Using Nonlinear Unsolicited Feedback: Application to Enhance Energy Harvesting.
Del Hougne, P., M. Fink, and G. Lerosey.
Physical Review Applied 8, no. 6 (2017).
toggle visibility
Multiple scattering limit in optical microscopy.
Badon, A., A. C. Boccara, G. Lerosey, M. Fink, and A. Aubry.
Optics Express 25, no. 23 (2017): 28914–28934.
toggle visibility
Non-contact and through-clothing measurement of the heart rate using ultrasound vibrocardiography.
Jeger-Madiot, N., J. Gateau, M. Fink, and R. K. Ing.
Medical Engineering and Physics 50 (2017): 96–102.
toggle visibility
Crystalline Soda Can Metamaterial exhibiting Graphene-like Dispersion at subwavelength scale.
Yves, S., F. Lemoult, M. Fink, and G. Lerosey.
Scientific Reports 7, no. 1 (2017).
toggle visibility
Slow waves in locally resonant metamaterials line defect waveguides.
Kaina, N., A. Causier, Y. Bourlier, M. Fink, T. Berthelot, and G. Lerosey.
Scientific Reports 7, no. 1 (2017).
toggle visibility
Effect of microstructural elongation on backscattered field: Intensity measurement and multiple scattering estimation with a linear transducer array.
Baelde, A., J. Laurent, P. Millien, R. Coulette, W. B. Khalifa, F. Jenson, F. Sun, M. Fink, and C. Prada.
Ultrasonics 82 (2018): 379–389.
toggle visibility
Manipulating light at subwavelength scale by exploiting defect-guided spoof plasmon modes.
Ourir, A., A. Maurel, S. Félix, J. F. Mercier, and M. Fink.
Physical Review B 96, no. 12 (2017).
toggle visibility
Topological acoustic polaritons: Robust sound manipulation at the subwavelength scale.
Yves, S., R. Fleury, F. Lemoult, M. Fink, and G. Lerosey.
New Journal of Physics 19, no. 7 (2017).
toggle visibility
Crystalline metamaterials for topological properties at subwavelength scales.
Yves, S., R. Fleury, T. Berthelot, M. Fink, F. Lemoult, and G. Lerosey.
Nature Communications 8 (2017).
toggle visibility
From the time-reversal mirror to the instantaneous time mirror.
Fink, M., and E. Fort.
European Physical Journal: Special Topics 226, no. 7 (2017): 1477–1486.
toggle visibility
Time reversal of ultrasound in granular media.
Harazi, M., Y. Yang, M. Fink, A. Tourin, and X. Jia.
European Physical Journal: Special Topics 226, no. 7 (2017): 1487–1497.
toggle visibility
A resolution insensitive to geometrical aberrations by using incoherent illumination and interference imaging.
Xiao, P., M. Fink, A. H. Gandjbakhche, and A. Claude Boccara.
European Physical Journal: Special Topics 226, no. 7 (2017): 1603–1621.
toggle visibility
Ambient noise correlation-based imaging with moving sensors.
Fink, M., and J. Garnier.
Inverse Problems and Imaging 11, no. 3 (2017): 477–500.
toggle visibility
Dirac quantum time mirror.
Reck, P., C. Gorini, A. Goussev, V. Krueckl, M. Fink, and K. Richter.
Physical Review B – Condensed Matter and Materials Physics 95, no. 16 (2017).
toggle visibility
Imaging the dynamics of cardiac fiber orientation in vivo using 3D Ultrasound Backscatter Tensor Imaging.
Papadacci, C., V. Finel, J. Provost, O. Villemain, P. Bruneval, J. - L. Gennisson, M. Tanter, M. Fink, and M. Pernot.
Scientific reports 7, no. 1 (2017): 830.
toggle visibility
Full-field optical coherence tomography as a diagnosis tool: Recent progress with multimodal imaging.
Thouvenin, O., C. Apelian, A. Nahas, M. Fink, and C. Boccara.
Applied Sciences (Switzerland) 7, no. 3 (2017).
toggle visibility
Dynamic multimodal full-field optical coherence tomography and fluorescence structured illumination microscopy.
Thouvenin, O., M. Fink, and C. Boccara.
Journal of Biomedical Optics 22, no. 2 (2017).
toggle visibility
3D functional ultrasound imaging of the cerebral visual system in rodents.
Gesnik, M., K. Blaize, T. Deffieux, J. L. Gennisson, J. A. Sahel, M. Fink, S. Picaud, and M. Tanter.
NeuroImage 149 (2017): 267–274.
toggle visibility
Smart optical coherence tomography for ultra-deep imaging through highly scattering media.
Badon, A., D. Li, G. Lerosey, A. C. Boccara, M. Fink, and A. Aubry.
Science Advances 2, no. 11 (2016).
toggle visibility
Time-reversal of nonlinear waves: Applicability and limitations.
Ducrozet, G., M. Fink, and A. Chabchoub.
Physical Review Fluids 1, no. 5 (2016).
toggle visibility
Diffuse shear wave imaging: Toward passive elastography using low-frame rate spectral-domain optical coherence tomography.
Nguyen, T. M., A. Zorgani, M. Lescanne, C. Boccara, M. Fink, and S. Catheline.
Journal of Biomedical Optics 21, no. 12 (2016).
toggle visibility
Adaptive optics full-field optical coherence tomography.
Xiao, P., M. Fink, and A. C. Boccara.
Journal of Biomedical Optics 21, no. 12 (2016).
toggle visibility
Spatio-temporal imaging of light transport in highly scattering media under white light illumination.
Badon, A., D. Li, G. Lerosey, A. C. Boccara, M. Fink, and A. Aubry.
Optica 3, no. 11 (2016): 1160–1166.
toggle visibility
Time reversal and holography with spacetime transformations.
Bacot, V., M. Labousse, A. Eddi, M. Fink, and E. Fort.
Nature Physics 12, no. 10 (2016): 972–977.
toggle visibility
Full-field spatially incoherent illumination interferometry: a spatial resolution almost insensitive to aberrations.
Xiao, P., M. Fink, and A. C. Boccara.
Optics Letters 41, no. 17 (2016): 3920–3923.
toggle visibility
Spatiotemporal Wave Front Shaping in a Microwave Cavity.
Del Hougne, P., F. Lemoult, M. Fink, and G. Lerosey.
Physical Review Letters 117, no. 13 (2016).
toggle visibility
Soda cans metamaterial: A subwavelength-scaled phononic crystal.
Lemoult, F., N. Kaina, M. Fink, and G. Lerosey.
Crystals 6, no. 7 (2016).
toggle visibility
High speed optical holography of retinal blood flow.
Pellizzari, M., M. Simonutti, J. Degardin, J. A. Sahel, M. Fink, M. Paques, and M. Atlan.
Optics Letters 41, no. 15 (2016): 3503–3506.
toggle visibility
Exploiting spatiotemporal degrees of freedom for far-field subwavelength focusing using time reversal in fractals.
Dupré, M., F. Lemoult, M. Fink, and G. Lerosey.
Physical Review B – Condensed Matter and Materials Physics 93, no. 18 (2016).
toggle visibility
From Loschmidt daemons to time-reversed waves.
Fink, M.
Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 374, no. 2069 (2016).
toggle visibility
Negative refractive index and acoustic superlens from multiple scattering in single negative metamaterials.
Kaina, N., F. Lemoult, M. Fink, and G. Lerosey.
Nature 525, no. 7567 (2015): 77–81.
toggle visibility
Carotid stiffness change over the cardiac cycle by ultrafast ultrasound imaging in healthy volunteers and vascular Ehlers-Danlos syndrome.
Mirault, T., M. Pernot, M. Frank, M. Couade, R. Niarra, M. Azizi, J. Emmerich, X. Jeunemaitre, M. Fink, M. Tanter et al.
Journal of hypertension 33, no. 9 (2015): 1890–6.
toggle visibility
Wave-Field Shaping in Cavities: Waves Trapped in a Box with Controllable Boundaries.
Dupré, M., P. Del Hougne, M. Fink, F. Lemoult, and G. Lerosey.
Physical Review Letters 115 (2015): 017701.
toggle visibility
Subwavelength focusing in bubbly media using broadband time reversal.
Lanoy, M., R. Pierrat, F. Lemoult, M. Fink, V. Leroy, and A. Tourin.
Physical Review B 91, no. 22 (2015).
toggle visibility
Scanning-free imaging through a single fiber by random spatio-spectral encoding.
Kolenderska, S. M., O. Katz, M. Fink, and S. Gigan.
Optics Letters 40, no. 4 (2015): 534–537.
toggle visibility
Super-resolution in time-reversal focusing on a moving source.
Garnier, J., and M. Fink.
Wave Motion 53 (2015): 80–93.
toggle visibility
High-contrast ultrafast imaging of the heart.
Papadacci, C., M. Pernot, M. Couade, M. A. Fink., and M. Tanter.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 61, no. 2 (2014): 288–301.
toggle visibility
Retrieving time-dependent green's functions in optics with low-coherence interferometry.
Badon, A., G. Lerosey, A. C. Boccara, M. Fink, and A. Aubry.
Physical Review Letters 114, no. 2 (2015).
toggle visibility
Non-invasive single-shot imaging through scattering layers and around corners via speckle correlations.
Katz, O., P. Heidmann, M. Fink, and S. Gigan.
Nature Photonics 8, no. 10 (2014).
toggle visibility
Shaping complex microwave fields in reverberating media with binary tunable metasurfaces.
Kaina, N., M. Dupre, G. Lerosey, and M. Fink.
Scientific reports 4 (2014): 6693.
toggle visibility
3D ultrafast ultrasound imaging in vivo.
Provost, J., C. Papadacci, J. E. Arango, M. Imbault, M. Fink, J. - L. Gennisson, M. Tanter, and M. Pernot.
Physics In Medicine And Biology 59, no. 19 (2014): L1–L13.
toggle visibility
Cancellation of Doppler Intrinsic Spectral Broadening Using Ultrafast Doppler Imaging.
Osmanski, B. - F., J. Bercoff, G. Montaldo, T. Loupas, M. Fink, and M. Tanter.
Ieee Transactions On Ultrasonics Ferroelectrics And Frequency Control 61, no. 8 (2014): 1396–1408.
toggle visibility
Ultrasound Backscatter Tensor Imaging (BTI): Analysis of the Spatial Coherence of Ultrasonic Speckle in Anisotropic Soft Tissues.
Papadacci, C., M. Tanter, M. Pernot, and M. Fink.
Ieee Transactions On Ultrasonics Ferroelectrics And Frequency Control 61, no. 6 (2014): 986–996.
toggle visibility
Use of shear wave elastography for monitoring enzymatic milk coagulation.
Budelli, E., M. Bernal, P. Lema, M. Fink, C. Negreira, M. Tanter, and J. L. Gennisson.
Journal Of Food Engineering 136 (2014): 73–79.
toggle visibility
Ultrafast Doppler reveals the mapping of cerebral vascular resistivity in neonates.
Demene, C., M. Pernot, V. Biran, M. Alison, M. Fink, O. Baud, and M. Tanter.
Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism 34, no. 6 (2014): 1009–17.
toggle visibility
Time-Reversal Generation of Rogue Waves.
Chabchoub, A., and M. Fink.
Physical Review Letters 112, no. 12 (2014).
toggle visibility
Using Subwavelength Diffraction Gratings to Design Open Electromagnetic Cavities.
Dupre, M., M. Fink, and G. Lerosey.
Physical Review Letters 112, no. 4 (2014).
toggle visibility
Subwavelength far-field imaging at visible and ultraviolet wavelengths using broadband surface plasmon waves.
Ourir, A., and M. Fink.
Physical Review B 89, no. 11 (2014).
toggle visibility
High-Contrast Ultrafast Imaging of the Heart.
Papadacci, C., M. Pernot, M. Couade, M. Fink, and M. Tanter.
Ieee Transactions On Ultrasonics Ferroelectrics And Frequency Control 61, no. 2 (2014): 288–301.
toggle visibility
From supersonic shear wave imaging to full-field optical coherence shear wave elastography.
Nahas, A., M. Tanter, Thu-Mai Nguyen, J. - M. Chassot, M. Fink, and A. C. Boccara.
Journal Of Biomedical Optics 18, no. 12 (2013).
toggle visibility
Increasing the modal density in plates for mono-element focusing in air.
Etaix, N., J. Dubois, M. Fink, and R. - K. Ing.
Journal Of The Acoustical Society Of America 134, no. 2 (2013): 1049–1054.
toggle visibility
A review of the medical applications of shear wave elastography.
Tanter, M., M. Pernot, J. L. Gennisson, and M. Fink.
The Journal of the Acoustical Society of America 134, no. 5 (2013): 4009.
toggle visibility
Non-invasive ultrasonic surgery of the brain in non-human primates.
Marquet, F., A. - L. Boch, M. Pernot, G. Montaldo, D. Seilhean, M. Fink, M. Tanter, and J. - F. Aubry.
Journal Of The Acoustical Society Of America 134, no. 2 (2013): 1632–1639.
toggle visibility
Ultrafast Imaging in Biomedical Ultrasound.
Tanter, M., and M. Fink.
Ieee Transactions On Ultrasonics Ferroelectrics And Frequency Control 61, no. 1 (2014): 102–119.
toggle visibility
Ultrafast imaging in biomedical ultrasound.
Tanter, M., and M. Fink.
IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control 61 (2014): 102–119.
toggle visibility
Controlling light in scattering media non-invasively using the photoacoustic transmission matrix.
Chaigne, T., O. Katz, A. C. Boccara, M. Fink, E. Bossy, and S. Gigan.
Nature Photonics 8 (2014): 58–64.
toggle visibility
Composite media mixing Bragg and local resonances for highly attenuating and broad bandgaps.
Kaina, N., M. Fink, and G. Lerosey.
Scientific Reports 3 (2013).
toggle visibility
Sono-activated ultrasound localization microscopy.
Desailly, Y., O. Couture, M. Fink, and M. Tanter.
Applied Physics Letters 103, no. 17 (2013).
toggle visibility
Global approach for transient shear wave inversion based on the adjoint method: A comprehensive 2D simulation study.
Arnal, B., G. Pinton, P. Garapon, M. Pernot, M. Fink, and M. Tanter.
Physics in Medicine and Biology 58, no. 19 (2013): 6765–6778.
toggle visibility
Transverse localization of sound.
Bretagne, A., M. Fink, and A. Tourin.
Physical Review B – Condensed Matter and Materials Physics 88, no. 10 (2013).
toggle visibility
Transcranial high intensity focused ultrasound therapy guided by 7 TESLA MRI in a rat brain tumour model: A feasibility study.
Dervishi, E., B. Larrat, M. Pernot, C. Adam, Y. Marie, M. Fink, J. - Y. Delattre, A. - L. Boch, M. Tanter, and J. - F. Aubry.
International Journal of Hyperthermia 29, no. 6 (2013): 598–608.
toggle visibility
Transient optoelastography in optically diffusive media.
Bossy, E., A. R. Funke, K. Daoudi, A. - C. Boccara, M. Tanter, and M. Fink.
Applied Physics Letters 90, no. 17 (2007): 174111.
toggle visibility
Time reversal of photoacoustic waves.
Bossy, E., K. Daoudi, A. - C. Boccara, M. Tanter, J. - F. Aubry, G. Montaldo, and M. Fink.
Applied Physics Letters 89, no. 18 (2006): 184108.
toggle visibility
Photoacoustic guidance of high intensity focused ultrasound with selective optical contrasts and time-reversal.
Funke, A. R., J. - F. Aubry, M. Fink, A. - C. Boccara, and E. Bossy.
Applied Physics Letters 94, no. 5 (2009): 054102.
toggle visibility
Influence of the pressure field distribution in transcranial ultrasonic neurostimulation.
Younan, Y., T. Deffieux, B. Larrat, M. Fink, M. Tanter, and J. - F. Aubry.
Medical Physics 40, no. 8 (2013).
toggle visibility
Green's function retrieval and passive imaging from correlations of wideband thermal radiations.
Davy, M., M. Fink, and J. De Rosny.
Physical Review Letters 110, no. 20 (2013).
toggle visibility
Targeting accuracy of transcranial magnetic resonance-guided high-intensity focused ultrasound brain therapy: A fresh cadaver model: Laboratory investigation.
Chauvet, D., L. Marsac, M. Pernot, A. - L. Boch, R. Guillevin, N. Salameh, L. Souris, L. Darrasse, M. Fink, M. Tanter et al.
Journal of Neurosurgery 118, no. 5 (2013): 1046–1052.
toggle visibility
Ultrasound elastography: Principles and techniques.
Gennisson, J. - L., T. Deffieux, M. Fink, and M. Tanter.
Diagnostic and Interventional Imaging (2013).
toggle visibility
EFSUMB Guidelines and Recommendations on the clinical use of ultrasound elastographypart 2: Clinical applications.
Cosgrove, D., F. Piscaglia, J. Bamber, J. Bojunga, J. - M. Correas, O. H. Gilja, A. S. Klauser, I. Sporea, F. Calliada, V. Cantisani et al.
Ultraschall in der Medizin 34, no. 3 (2013): 238–253.
toggle visibility
EFSUMB guidelines and recommendations on the clinical use of ultrasound elastographypart 1: Basic principles and technology.
Bamber, J., D. Cosgrove, C. F. Dietrich, J. Fromageau, J. Bojunga, F. Calliada, V. Cantisani, J. - M. Correas, M. D'Onofrio, E. E. Drakonaki et al.
Ultraschall in der Medizin 34, no. 2 (2013): 169–184.
toggle visibility
Subwavelength focusing inside an open disordered medium by time reversal at a single point antenna.
Pierrat, R., C. Vandenbem, M. Fink, and R. Carminati.
Physical Review A – Atomic, Molecular, and Optical Physics 87, no. 4 (2013).
toggle visibility
Ultra small mode volume defect cavities in spatially ordered and disordered metamaterials.
Kaina, N., F. Lemoult, M. Fink, and G. Lerosey.
Applied Physics Letters 102, no. 14 (2013).
toggle visibility
Elastography: A new modality of ultrasound imaging.
Fink, M.
Diagnostic and Interventional Imaging (2013).
toggle visibility
Acousto-optic imaging: Merging the best of two worlds.
Lerosey, G., and M. Fink.
Nature Photonics 7, no. 4 (2013): 265–267.
toggle visibility
Functional ultrasound imaging of the brain: Theory and basic principles.
Mace, E., G. Montaldo, B. - F. Osmanski, I. Cohen, M. Fink, and M. Tanter.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 60, no. 3 (2013): 492–506.
toggle visibility
Wave propagation control at the deep subwavelength scale in metamaterials.
Lemoult, F., N. Kaina, M. Fink, and G. Lerosey.
Nature Physics 9, no. 1 (2013): 55–60.
toggle visibility
Analysis of the time reversal operator for a scatterer undergoing small displacements.
Philippe, F. D., C. Prada, M. Fink, J. Garnier, and J. De Rosny.
Journal of the Acoustical Society of America 133, no. 1 (2013): 94–107.
toggle visibility
Ultrasound contrast plane wave imaging.
Couture, O., M. Fink, and M. Tanter.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 59, no. 12 (2012): 2676–2683.
toggle visibility
The variance of quantitative estimates in shear wave imaging: Theory and experiments.
Deffieux, T., J. - L. Gennisson, B. Larrat, M. Fink, and M. Tanter.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 59, no. 11 (2012): 2390–2410.
toggle visibility
Time-reversal method and cross-correlation techniques by normal mode theory: A three-point problem.
Montagner, J. - P., C. Larmat, Y. Capdeville, M. Fink, H. Phung, B. Romanowicz, E. Clévédé, and H. Kawakatsu.
Geophysical Journal International 191, no. 2 (2012): 637–652.
toggle visibility
Far field subwavelength imaging of magnetic patterns.
Ourir, A., G. Lerosey, F. Lemoult, M. Fink, and J. De Rosny.
Applied Physics Letters 101, no. 11 (2012).
toggle visibility
Aberration correction by time reversal of moving speckle noise.
Osmanski, B. - F., G. Montaldo, M. Tanter, and M. Fink.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 59, no. 7 (2012): 1575–1583.
toggle visibility
Time reversal of water waves.
Przadka, A., S. Feat, P. Petitjeans, V. Pagneux, A. Maurel, and M. Fink.
Physical Review Letters 109, no. 6 (2012).
toggle visibility
Tunable time-reversal cavity for high-pressure ultrasonic pulses generation: A tradeoff between transmission and time compression.
Arnal, B., M. Pernot, M. Fink, and M. Tanter.
Applied Physics Letters 101, no. 6 (2012).
toggle visibility
Monitoring of cornea elastic properties changes during UV-A/riboflavin-induced corneal collagen cross-linking using supersonic shear wave imaging: A pilot study.
Nguyen, T. - M., J. - F. Aubry, D. Touboul, M. Fink, J. - L. Gennisson, J. Bercoff, and M. Tanter.
Investigative Ophthalmology and Visual Science 53, no. 9 (2012): 5948–5954.
toggle visibility
A polychromatic approach to far-field superlensing at visible wavelengths.
Lemoult, F., M. Fink, and G. Lerosey.
Nature Communications 3 (2012).
toggle visibility
Controlling waves in space and time for imaging and focusing in complex media.
Mosk, A. P., A. Lagendijk, G. Lerosey, and M. Fink.
Nature Photonics 6, no. 5 (2012): 283–292.
toggle visibility
Application of 1-d transient elastography for the shear modulus assessment of thin-layered soft tissue: Comparison with supersonic shear imaging technique.
Brum, J., J. - L. Gennisson, T. - M. Nguyen, N. Benech, M. Fink, M. Tanter, and C. Negreira.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 59, no. 4 (2012): 703–714.
toggle visibility
Mapping myocardial fiber orientation using echocardiography-based shear wave imaging.
Lee, W. - N., M. Pernot, M. Couade, E. Messas, P. Bruneval, A. Bel, A. A. Hagège, M. Fink, and M. Tanter.
IEEE Transactions on Medical Imaging 31, no. 3 (2012): 554–562.
toggle visibility
MR-guided adaptive focusing of therapeutic ultrasound beams in the human head.
Marsac, L., D. Chauvet, B. Larrat, M. Pernot, B. Robert, M. Fink, A. L. Boch, J. F. Aubry, and M. Tanter.
Medical Physics 39, no. 2 (2012): 1141–1149.
toggle visibility
Imaging changes in scattering media from Time Reversal of the Coda wave Difference (TRECOD).
Bonneau, L., C. Prada, M. Fink, and A. Tourin.
Waves in Random and Complex Media 22, no. 1 (2012): 109–120.
toggle visibility
Optimal spatiotemporal focusing through complex scattering media.
Aulbach, J., A. Bretagne, M. Fink, M. Tanter, and A. Tourin.
Physical Review E – Statistical, Nonlinear, and Soft Matter Physics 85, no. 1 (2012).
toggle visibility
Numerical prediction of frequency dependent 3D maps of mechanical index thresholds in ultrasonic brain therapy.
Pinton, G., J. - F. Aubry, M. Fink, and M. Tanter.
Medical Physics 39, no. 1 (2012): 455–467.
toggle visibility
Exploiting the time-reversal operator for adaptive optics, selective focusing, and scattering pattern analysis.
Popoff, S. M., A. Aubry, G. Lerosey, M. Fink, A. C. Boccara, and S. Gigan.
Physical Review Letters 107, no. 26 (2011).
toggle visibility
Controlling light through optical disordered media: Transmission matrix approach.
Popoff, S. M., G. Lerosey, M. Fink, A. C. Boccara, and S. Gigan.
New Journal of Physics 13 (2011).
toggle visibility
Time reversal in subwavelength-scaled resonant media: Beating the diffraction limit.
Lemoult, F., A. Ourir, J. De Rosny, A. Tourin, M. Fink, and G. Lerosey.
International Journal of Microwave Science and Technology (2011).
toggle visibility
Optimal transcostal high-intensity focused ultrasound with combined real-time 3D movement tracking and correction.
Marquet, F., J. F. Aubry, M. Pernot, M. Fink, and M. Tanter.
Physics in Medicine and Biology 56, no. 22 (2011): 7061–7080.
toggle visibility
In vivo bubble nucleation probability in sheep brain tissue.
Gateau, J., J. - F. Aubry, D. Chauvet, A. - L. Boch, M. Fink, and M. Tanter.
Physics in Medicine and Biology 56, no. 22 (2011): 7001–7015.
toggle visibility
Revisiting the wire medium: An ideal resonant metalens.
Lemoult, F., M. Fink, and G. Lerosey.
Waves in Random and Complex Media 21, no. 4 (2011): 591–613.
toggle visibility
A multiwave imaging approach for elastography.
Fink, M., and M. Tanter.
Current Medical Imaging Reviews 7, no. 4 (2011): 340–349.
toggle visibility
Far-field sub-wavelength imaging and focusing using a wire medium based resonant metalens.
Lemoult, F., M. Fink, and G. Lerosey.
Waves in Random and Complex Media 21, no. 4 (2011): 614–627.
toggle visibility
Noninvasive In Vivo Liver Fibrosis Evaluation Using Supersonic Shear Imaging: A Clinical Study on 113 Hepatitis C Virus Patients.
Bavu, É., J. - L. Gennisson, M. Couade, J. Bercoff, V. Mallet, M. Fink, A. Badel, A. Vallet-Pichard, B. Nalpas, M. Tanter et al.
Ultrasound in Medicine and Biology 37, no. 9 (2011): 1361–1373.
toggle visibility
Acoustic resonators for far-field control of sound on a subwavelength scale.
Lemoult, F., M. Fink, and G. Lerosey.
Physical Review Letters 107, no. 6 (2011).
toggle visibility
Functional ultrasound imaging of the brain.
MacÉ, E., G. Montaldo, I. Cohen, M. Baulac, M. Fink, and M. Tanter.
Nature Methods 8, no. 8 (2011): 662–664.
toggle visibility
Ultrafast imaging of the arterial pulse wave.
Couade, M., M. Pernot, E. Messas, J. Emmerich, A. Hagège, M. Fink, and M. Tanter.
IRBM 32, no. 2 (2011): 106–108.
toggle visibility
In vivo mapping of brain elasticity in small animals using shear wave imaging.
MacÉ, E., I. Cohen, G. Montaldo, R. Miles, M. Fink, and M. Tanter.
IEEE Transactions on Medical Imaging 30, no. 3 (2011): 550–558.
toggle visibility
Effects of nonlinear ultrasound propagation on high intensity brain therapy.
Pinton, G., J. - F. Aubry, M. Fink, and M. Tanter.
Medical Physics 38, no. 3 (2011): 1207–1216.
toggle visibility
Combined passive detection and ultrafast active imaging of cavitation events induced by short pulses of high-intensity ultrasound.
Gateau, J., J. - F. Aubry, M. Pernot, M. Fink, and M. Tanter.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 58, no. 3 (2011): 517–532.
toggle visibility
Time reversal of speckle noise.
Montaldo, G., M. Tanter, and M. Fink.
Physical Review Letters 106, no. 5 (2011).
toggle visibility
In Vivo quantitative mapping of myocardial stiffening and transmural anisotropy during the cardiac cycle.
Couade, M., M. Pernot, E. Messas, A. Bel, M. Ba, A. Hagege, M. Fink, and M. Tanter.
IEEE Transactions on Medical Imaging 30, no. 2 (2011): 295–305.
toggle visibility
Ultrafast compound doppler imaging: Providing full blood flow characterization.
Bercoff, J., G. Montaldo, T. Loupas, D. Savery, F. Mézière, M. Fink, and M. Tanter.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 58, no. 1 (2011): 134–147.
toggle visibility
Image transmission through an opaque material.
Popoff, S., G. Lerosey, M. Fink, A. C. Boccara, and S. Gigan.
Nature Communications 1, no. 6 (2010).
toggle visibility
Detection and imaging of human beings behind a wall using the dort method.
Davy, M., T. Lepetit, J. de Rosny, C. Prada, and M. Fink.
Progress in Electromagnetics Research 110 (2010): 353–369.
toggle visibility
Quantitative Assessment of Arterial Wall Biomechanical Properties Using Shear Wave Imaging.
Couade, M., M. Pernot, C. Prada, E. Messas, J. Emmerich, P. Bruneval, A. Criton, M. Fink, and M. Tanter.
Ultrasound in Medicine and Biology 36, no. 10 (2010): 1662–1676.
toggle visibility
Theory of electromagnetic time-reversal mirrors.
De Rosny, J., G. Lerosey, and M. Fink.
IEEE Transactions on Antennas and Propagation 58, no. 10 (2010): 3139–3149.
toggle visibility
Real-time visualization of muscle stiffness distribution with ultrasound shear wave imaging during muscle contraction.
Shinohara, M., K. Sabra, J. - L. Gennisson, M. Fink, and M. L. Tanter.
Muscle and Nerve 42, no. 3 (2010): 438–441.
toggle visibility
MR-guided adaptive focusing of ultrasound.
Larrat, B., M. Pernot, G. Montaldo, M. Fink, and M. Tanter.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 57, no. 8 (2010): 1734–1747.
toggle visibility
Thickness or phase velocity measurements using the Green's function comparison method.
Etaix, N., A. Leblanc, M. Fink, and R. - K. Ing.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 57, no. 8 (2010): 1804–1812.
toggle visibility
Breast lesions: Quantitative elastography with supersonic shear imaging – Preliminary results.
Athanasiou, A., A. Tardivon, M. Tanter, B. Sigal-Zafrani, J. Bercoff, T. Deffieux, J. - L. Gennisson, M. Fink, and S. Neuenschwander.
Radiology 256, no. 1 (2010): 297–303.
toggle visibility
Measurement of thickness or plate velocity using ambient vibrations.
Ing, R. K., N. Etaix, A. Leblanc, and M. Fink.
Journal of the Acoustical Society of America 127, no. 6 (2010): EL252–EL257.
toggle visibility
Resonant metalenses for breaking the diffraction barrier.
Lemoult, F., G. Lerosey, J. De Rosny, and M. Fink.
Physical Review Letters 104, no. 20 (2010).
toggle visibility
Spatio-temporal invariants of the time reversal operator.
Robert, J. - L., and M. Fink.
Journal of the Acoustical Society of America 127, no. 5 (2010): 2904–2912.
toggle visibility
Experimental validation of time reversal ultra wide-band communication system for high data rates.
Naqvi, I. H., G. E. Zein, G. Lerosey, J. De Rosny, P. Besnier, A. Tourin, and M. Fink.
IET Microwaves, Antennas and Propagation 4, no. 5 (2010): 643–650.
toggle visibility
Imaging: Sharper focus by random scattering.
Fink, M.
Nature Photonics 4, no. 5 (2010): 269–271.
toggle visibility
High intensity focused ultrasound for transcranial therapy of brain lesions and disorders.
Aubry, J. - F., L. Marsac, M. Pernot, B. Robert, A. - L. Boch, D. Chauvet, N. Salameh, L. Souris, L. Darasse, J. Bittoun et al.
IRBM 31, no. 2 (2010): 87–91.
toggle visibility
Viscoelastic and anisotropic mechanical properties of in vivo muscle tissue assessed by supersonic shear imaging.
Gennisson, J. - L., T. Deffieux, E. Macé, G. Montaldo, M. Fink, and M. Tanter.
Ultrasound in Medicine and Biology 36, no. 5 (2010): 789–801.
toggle visibility
Experimental study of the invariants of the time-reversal operator for a dielectric cylinder using separate transmit and receive arrays.
Davy, M., J. - G. Minonzio, J. De Rosny, C. Prada, and M. Fink.
IEEE Transactions on Antennas and Propagation 58, no. 4 (2010): 1349–1356.
toggle visibility
Temperature dependence of the shear modulus of soft tissues assessed by ultrasound.
Sapin-De Brosses, E., J. - L. Gennisson, M. Pernot, M. Fink, and M. Tanter.
Physics in Medicine and Biology 55, no. 6 (2010): 1701–1718.
toggle visibility
Measuring the transmission matrix in optics: An approach to the study and control of light propagation in disordered media.
Popoff, S. M., G. Lerosey, R. Carminati, M. Fink, A. C. Boccara, and S. Gigan.
Physical Review Letters 104, no. 10 (2010).
toggle visibility
Multiwave imaging and super resolution.
Fink, M., and M. Tanter.
Physics Today 63, no. 2 (2010): 28–33.
toggle visibility
MR-guided transcranial brain HIFU in small animal models.
Larrat, B., M. Pernot, J. - F. Aubry, E. Dervishi, R. Sinkus, D. Seilhean, Y. Marie, A. - L. Boch, M. Fink, and M. Tanter.
Physics in Medicine and Biology 55, no. 2 (2010): 365–388.
toggle visibility
Focusing and amplification of electromagnetic waves by time reversal in an leaky reverberation chamber.
Davy, M., J. de Rosny, J. - C. Joly, and M. Fink.
Comptes Rendus Physique 11, no. 1 (2010): 37–43.
toggle visibility
Transcranial ultrasonic therapy based on time reversal of acoustically induced cavitation bubble signature.
Gâteau, J., L. Marsac, M. Pernot, J. - F. Aubry, M. Tanter, and M. Fink.
IEEE Transactions on Biomedical Engineering 57, no. 1 (2010): 134–144.
toggle visibility
Influence of noise on subwavelength imaging of two close scatterers using time reversal method: Theory and experiments.
Davy, M., J. - G. Minonzio, J. de Rosny, C. Prada, and M. Fink.
Progress in Electromagnetics Research 98 (2009): 333–358.
toggle visibility
High-resolution quantitative imaging of cornea elasticity using supersonic shear imaging.
Tanter, M., D. Touboul, J. - L. Gennisson, J. Bercoff, and M. Fink.
IEEE Transactions on Medical Imaging 28, no. 12 (2009): 1881–1893.
toggle visibility
Non-invasive transcranial ultrasound therapy based on a 3D CT scan: Protocol validation and in vitro results.
Marquet, F., M. Pernot, J. - F. Aubry, G. Montaldo, L. Marsac, M. Tanter, and M. Fink.
Physics in Medicine and Biology 54, no. 9 (2009): 2597–2613.
toggle visibility
Design and characterization of bubble phononic crystals.
Leroy, V., A. Bretagne, M. Fink, H. Willaime, P. Tabeling, and A. Tourin.
Applied Physics Letters 95, no. 17 (2009).
toggle visibility
Application of DENSE-MR-elastography to the human heart.
Robert, B., R. Sinkus, J. - L. Gennisson, and M. Fink.
Magnetic Resonance in Medicine 62, no. 5 (2009): 1155–1163.
toggle visibility
Ultrafast Imaging of Ultrasound Contrast Agents.
Couture, O., S. Bannouf, G. Montaldo, J. - F. Aubry, M. Fink, and M. Tanter.
Ultrasound in Medicine and Biology 35, no. 11 (2009): 1908–1916.
toggle visibility
Energy-based adaptive focusing of waves: application to noninvasive aberration correction of ultrasonic wavefields.
Herbert, E., M. Pernot, G. Montaldo, M. Fink, and M. Tanter.
IEEE transactions on ultrasonics, ferroelectrics, and frequency control 56, no. 11 (2009): 2388–2399.
toggle visibility
Manipulating Spatiotemporal Degrees of Freedom of Waves in Random Media.
Lemoult, F., G. Lerosey, J. De Rosny, and M. Fink.
Physical Review Letters 103, no. 17 (2009).
toggle visibility
Theory of the time-reversal operator for a dielectric cylinder using separate transmit and receive arrays.
Minonzio, J. - G., M. Davy, J. de Rosny, C. Prada, and M. Fink.
IEEE Transactions on Antennas and Propagation 57, no. 8 (2009): 2331–2340.
toggle visibility
Ultrasonic focusing through the ribs using the DORT method.
Cochard, E., C. Prada, J. F. Aubry, and M. Fink.
Medical Physics 36, no. 8 (2009): 3495–3503.
toggle visibility
Time-reversed waves and super-resolution.
Fink, M., J. de Rosny, G. Lerosey, and A. Tourin.
Comptes Rendus Physique 10, no. 5 (2009): 447–463.
toggle visibility
Time-reversal focusing of therapeutic ultrasound on targeted microbubbles.
Couture, O., J. - F. Aubry, M. Tanter, and M. Fink.
Applied Physics Letters 94, no. 17 (2009).
toggle visibility
Coherent plane-wave compounding for very high frame rate ultrasonography and transient elastography.
Montaldo, G., M. Tanter, J. Bercoff, N. Benech, and M. Fink.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 56, no. 3 (2009): 489–506.
toggle visibility
The time-reversal operator with virtual transducers: Application to far-field aberration correction.
Robert, J. - L., and M. Fink.
Journal of the Acoustical Society of America 124, no. 6 (2009): 3659–3668.
toggle visibility
Quantitative Viscoelasticity Mapping of Human Liver Using Supersonic Shear Imaging: Preliminary In Vivo Feasability Study.
Muller, M., J. - L. Gennisson, T. Deffieux, M. Tanter, and M. Fink.
Ultrasound in Medicine and Biology 35, no. 2 (2009): 219–229.
toggle visibility
The prolate spheroidal wave functions as invariants of the time reversal operator for an extended scatterer in the Fraunhofer approximation.
Robert, J. - L., and M. Fink.
Journal of the Acoustical Society of America 125, no. 1 (2009): 218–226.
toggle visibility
Time-reversal waves and super resolution.
Fink, M.
Journal of Physics: Conference Series 124 (2008).
toggle visibility
Electrical impedance tomography by elastic deformation.
Ammari, H., E. Bonnetier, Y. Capdeboscq, M. Tanter, and M. Fink.
SIAM Journal on Applied Mathematics 68, no. 6 (2008): 1557–1573.
toggle visibility
Suppression of tissue harmonics for pulse-inversion contrast imaging using time reversal.
Couture, O., J. - F. Aubry, G. Montaldo, M. Tanter, and M. Fink.
Physics in Medicine and Biology 53, no. 19 (2008): 5469–5480.
toggle visibility
Assessment of the mechanical properties of the musculoskeletal system using 2-D and 3-D very high frame rate ultrasound.
Deffieux, T., J. - L. Gennisson, M. Tanter, and M. Fink.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 55, no. 10 (2008): 2177–2190.
toggle visibility
Fourth-order shear elastic constant assessment in quasi-incompressible soft solids.
Ŕnier, M., J. - L. Gennisson, C. Barrìre, D. Royer, and M. Fink.
Applied Physics Letters 93, no. 10 (2008).
toggle visibility
Quantitative Assessment of Breast Lesion Viscoelasticity: Initial Clinical Results Using Supersonic Shear Imaging.
Tanter, M., J. Bercoff, A. Athanasiou, T. Deffieux, J. - L. Gennisson, G. Montaldo, M. Muller, A. Tardivon, and M. Fink.
Ultrasound in Medicine and Biology 34, no. 9 (2008): 1373–1386.
toggle visibility
Characterization of an elastic target in a shallow water waveguide by decomposition of the time-reversal operator.
Philippe, F. D., C. Prada, J. De Rosny, D. Clorennec, J. - G. Minonzio, and M. Fink.
Journal of the Acoustical Society of America 124, no. 2 (2008): 779–787.
toggle visibility
Eigenvalue distributions of correlated multichannel transfer matrices in strongly scattering systems.
Sprik, R., A. Tourin, J. De Rosny, and M. Fink.
Physical Review B – Condensed Matter and Materials Physics 78, no. 1 (2008).
toggle visibility
Time-reversal acoustics.
Fink, M.
Journal of Physics: Conference Series 118, no. 1 (2008).
toggle visibility
Transcostal high-intensity-focused ultrasound: Ex vivo adaptive focusing feasibility study.
Aubry, J. - F., M. Pernot, F. Marquet, M. Tanter, and M. Fink.
Physics in Medicine and Biology 53, no. 11 (2008): 2937–2951.
toggle visibility
Characterization of an elastic cylinder and an elastic sphere with the time-reversal operator: Application to the sub-resolution limit.
Minonzio, J. - G., F. D. Philippe, C. Prada, and M. Fink.
Inverse Problems 24, no. 2 (2008).
toggle visibility
Potential of MRI and ultrasound radiation force in elastography: Applications to diagnosis and therapy.
Sinkus, R., M. Tanter, J. Bercoff, K. Siegmann, M. Pernot, A. Athanasiou, and M. Fink.
Proceedings of the IEEE 96, no. 3 (2008): 490–499.
toggle visibility
Green's function estimation in speckle using the decomposition of the time reversal operator: Application to aberration correction in medical imaging.
Robert, J. - L., and M. Fink.
Journal of the Acoustical Society of America 123, no. 2 (2008): 866–877.
toggle visibility
Focusing properties of near-field time reversal.
De Rosny, J., and M. Fink.
Physical Review A – Atomic, Molecular, and Optical Physics 76, no. 6 (2007).
toggle visibility
MR elastography of breast lesions: Understanding the solid/liquid duality can improve the specificity of contrast-enhanced MR mammography.
Sinkus, R., K. Siegmann, T. Xydeas, M. Tanter, C. Claussen, and M. Fink.
Magnetic Resonance in Medicine 58, no. 6 (2007): 1135–1144.
toggle visibility
Acoustoelasticity in soft solids: Assessment of the nonlinear shear modulus with the acoustic radiation force.
Gennisson, J. - L., M. Rénier, S. Catheline, C. Barrière, J. Bercoff, M. Tanter, and M. Fink.
Journal of the Acoustical Society of America 122, no. 6 (2007): 3211–3219.
toggle visibility
Optimal adaptive focusing through heterogeneous media with the minimally invasive inverse filter.
Vignon, F., J. De Rosny, J. - F. Aubry, and M. Fink.
Journal of the Acoustical Society of America 122, no. 5 (2007): 2715–2724.
toggle visibility
Theory of the time reversal cavity for electromagnetic fields.
Carminati, R., R. Pierrat, J. De Rosny, and M. Fink.
Optics Letters 32, no. 21 (2007): 3107–3109.
toggle visibility
Ultrasonic arrays: New therapeutic developments.
Aubry, J. - F., M. Pernot, M. Tanter, G. Montaldo, and M. Fink.
Journal de Radiologie 88, no. 11 C2 (2007): 1801–1809.
toggle visibility
Nonlinear shear wave interaction in soft solids.
Jacob, X., S. Catheline, J. - L. Gennisson, C. Barrière, D. Royer, and M. Fink.
Journal of the Acoustical Society of America 122, no. 4 (2007): 1917–1926.
toggle visibility
A0 mode interaction with a plate free edge: Theory and experiments at very low frequency by thickness product.
Ribay, G., S. Catheline, D. Clorennec, R. K. Ing, and M. Fink.
Journal of the Acoustical Society of America 122, no. 2 (2007): 711–714.
toggle visibility
Experimental detection and focusing in shallow water by decomposition of the time reversal operator.
Prada, C., J. De Rosny, D. Clorennec, J. - G. Minonzio, A. Aubry, M. Fink, L. Berniere, P. Billand, S. Hibral, and T. Folegot.
Journal of the Acoustical Society of America 122, no. 2 (2007): 761–768.
toggle visibility
In vivo transcranial brain surgery with an ultrasonic time reversal mirror.
Pernot, M., J. - F. Aubry, M. Tanter, A. - L. Boch, F. Marquet, M. Kujas, D. Seilhean, and M. Fink.
Journal of Neurosurgery 106, no. 6 (2007): 1061–1066.
toggle visibility
Elastography using ultrasound or magnetic resonance: New imaging tools for cancer diagnosis.
Tanter, M., J. Bercoff, R. Sinkus, T. Deffieux, J. - L. Gennisson, and M. Fink.
Medecine Nucleaire 31, no. 4 SPEC. ISS. (2007): 132–141.
toggle visibility
Compensating for bone interfaces and respiratory motion in high-intensity focused ultrasound.
Tanter, M., M. Pernot, J. - F. Aubry, G. Montaldo, F. Marquet, and M. Fink.
International Journal of Hyperthermia 23, no. 2 (2007): 141–151.
toggle visibility