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1,068 results on '"Toulemonde, M."'

1. Volumetric Image Projection Super-Resolution Ultrasound (VIP-SR) with a 1D Unfocused Linear Array

Author

Wang, B., Riemer, K., Toulemonde, M., Yan, J., Zhou, X., and Tang, M.

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Super-Resolution Ultrasound (SRUS) through localizing spatially isolated microbubbles has been demonstrated to overcome the wave diffraction limit and reveal the microvascular structure and flow information at the microscopic scale. However, 3D SRUS imaging remains a challenge due to the fabrication and computational complexity of 2D matrix array probes and connections. Inspired by X-ray radiography which can present volumetric information in a single projection image with much simpler hardware than X-ray CT, this study investigates the feasibility of volumetric image projection super-resolution (VIP-SR) ultrasound using a 1D unfocused linear array. Both simulation and experiments were conducted on 3D microvessel phantoms using a 1D linear array with or without an elevational focus, and a 2D matrix array as the reference. Results show that, VIP-SR, using an unfocused 1D array probe can capture significantly more volumetric information than the conventional 1D elevational focused probe. Compared with the 2D projection image of the full 3D SRUS results using the 2D array probe with the same aperture size, VIP-SR has similar volumetric coverage using 32 folds less independent elements. The impact of bubble concentration and vascular density on the VIP-SR US was also investigated. This study demonstrates the ability of high-resolution volumetric imaging of microvascular structures at significantly reduced costs with VIP-SR., Comment: 19 pages, 9 figures

Published
2022

2. 3-D Super-Resolution Ultrasound (SR-US) Imaging with a 2-D Sparse Array

Author

Harput, S., Christensen-Jeffries, K., Ramalli, A., Brown, J., Zhu, J., Zhang, G., Leow, C. H., Toulemonde, M., Boni, E., Tortoli, P., Eckersley, R. J., Dunsby, C., and Tang, M-X.

Subjects
Physics - Medical Physics
Abstract

High frame rate 3-D ultrasound imaging technology combined with super-resolution processing method can visualize 3-D microvascular structures by overcoming the diffraction limited resolution in every spatial direction. However, 3-D super-resolution ultrasound imaging using a full 2-D array requires a system with large number of independent channels, the design of which might be impractical due to the high cost, complexity, and volume of data produced. In this study, a 2-D sparse array was designed and fabricated with 512 elements chosen from a density-tapered 2-D spiral layout. High frame rate volumetric imaging was performed using two synchronized ULA-OP 256 research scanners. Volumetric images were constructed by coherently compounding 9-angle plane waves acquired in 3 milliseconds at a pulse repetition frequency of 3000 Hz. To allow microbubbles sufficient time to move between consequent compounded volumetric frames, a 7-millisecond delay was introduced after each volume acquisition. This reduced the effective volume acquisition speed to 100 Hz and the total acquired data size by 3.3-fold. Localization-based 3-D super-resolution images of two touching sub-wavelength tubes were generated from 6000 volumes acquired in 60 seconds. In conclusion, this work demonstrates the feasibility of 3D super-resolution imaging and super-resolved velocity mapping using a customized 2D sparse array transducer.

Published
2019
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3. 3-D Super-Resolution Ultrasound (SR-US) Imaging using a 2-D Sparse Array with High Volumetric Imaging Rate

Author

Harput, S., Christensen-Jeffries, K., Brown, J., Zhu, J., Zhang, G., Leow, C. H., Toulemonde, M., Ramalli, A., Boni, E., Tortoli, P., Eckersley, R. J., Dunsby, C., and Tang, M-X.

Subjects
Physics - Medical Physics
Abstract

Super-resolution ultrasound imaging has been so far achieved in 3-D by mechanically scanning a volume with a linear probe, by co-aligning multiple linear probes, by using multiplexed 3-D clinical ultrasound systems, or by using 3-D ultrasound research systems. In this study, a 2-D sparse array was designed with 512 elements according to a density-tapered 2-D spiral layout and optimized to reduce the sidelobes of the transmitted beam profile. High frame rate volumetric imaging with compounded plane waves was performed using two synchronized ULA-OP 256 systems. Localization-based 3-D super-resolution images of two touching sub-wavelength tubes were generated from a 120 second acquisition., Comment: arXiv admin note: substantial text overlap with arXiv:1902.01608

Published
2019

6. Energy deposition by heavy ions: Additivity of kinetic and potential energy contributions in hillock formation on CaF2

Author

Wang, Y. Y., Grygiel, C., Dufour, C., Sun, J. R., Wang, Z. G., Zhao, Y. T., Xiao, G. Q., Cheng, R., Zhou, X. M., Ren, J. R., Liu, S. D., Lei, Y., Sun, Y. B., Ritter, R., Gruber, E., Cassimi, A., Monnet, I., Bouffard, S., Aumayr, F., and Toulemonde, M.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The formation of nano-hillocks on CaF2 crystal surfaces by individual ion impact has been studied using medium energy (3 and 5 MeV) highly charged ions (Xe19+ to Xe30+) as well as swift (kinetic energies between 12 and 58 MeV) heavy ions. For very slow highly charged ions the appearance of hillocks is known to be linked to a threshold in potential energy while for swift heavy ions a minimum electronic energy loss is necessary. With our results we bridge the gap between these two extreme cases and demonstrate, that with increasing energy deposition via electronic energy loss the potential energy threshold for hillock production can be substantially lowered. Surprisingly, both mechanisms of energy deposition in the target surface seem to contribute in an additive way, as demonstrated when plotting the results in a phase diagram. We show that the inelastic thermal spike model, originally developed to describe such material modifications for swift heavy ions, can be extended to case where kinetic and potential energies are deposited into the surface., Comment: 12 pages, 4 figures

Published
2014
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10. Ion-matter interaction: the three dimensional version of the thermal spike model. Application to nanoparticle irradiation with swift heavy ions

Author

Dufour, Ch., Khomenkov, V., Rizza, G., and Toulemonde, M.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter, 80AAx, 82D80
Abstract

In the framework of swift heavy ion - matter interaction, the thermal spike has proved its worth since nearly two decades. This paper deals with the necessary refinement of the computation due to the kind of materials involved i.e. nanomaterials such as multilayered systems or composite films constitued of nanocylinders or nanospheres embedded in matrix. The three dimensional computation of the thermal spike model is applied for the first time in layers containing spherical nanoparticles embedded in a silica matrix. The temperature profile calculated at each point (x,y,z) of the target for times up to $10^{-10}$s allows a possible explanation of the particle shape change under irradiation with swift heavy ions having an energy of several MeV/u.m.a. The comparison made with the former 2D version of the code applied to cylindrical gold nanoparticles confirms the validity of the present 3D version.

Published
2011
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11. Potential energy threshold for nano-hillock formation by impact of slow highly charged ions on a CaF$_2$(111) surface

Author

El-Said, A. S., Meissl, W., Simon, M. C., López-Urrutia, J. R. Crespo, Lemell, C., Burgdörfer, J., Gebeshuber, I. C., Winter, HP., Ullrich, J., Trautmann, C., Toulemonde, M., and Aumayr, F.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

We investigate the formation of nano-sized hillocks on the (111) surface of CaF$_2$ single crystals by impact of slow highly charged ions. Atomic force microscopy reveals a surprisingly sharp and well-defined threshold of potential energy carried into the collision of about 14 keV for hillock formation. Estimates of the energy density deposited suggest that the threshold is linked to a solid-liquid phase transition (``melting'') on the nanoscale. With increasing potential energy, both the basal diameter and the height of the hillocks increase. The present results reveal a remarkable similarity between the present predominantly potential-energy driven process and track formation by the thermal spike of swift ($\sim$ GeV) heavy ions., Comment: 10 pages, 2 figures

Published
2006
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12. Electron gas polarization effect induced by heavy H-like ions of moderate velocities channeled in a silicon crystal

Author

Dauvergne, D., Bräuning-Demian, A., Bosch, F., Bräuning, H., Chevallier, M., Cohen, C., Gumberidze, A., Hagmann, S., L'hoir, A., Kirsch, R., Kozhuharov, C., Liesen, D., Mokler, P. H., Poizat, J. -C., Ray, C., Rozet, J. -P., Stöhlker, Th., Toleikis, S., Toulemonde, M., and Verma, P.

Subjects
Physics - Atomic Physics
Abstract

We report on the observation of a strong perturbation of the electron gas induced by 20 MeV/u U$^{91+}$ ions and 13 MeV/u Pb$^{81+}$ ions channeled in silicon crystals. This collective response (wake effect) in-duces a shift of the continuum energy level by more than 100 eV, which is observed by means of Radiative Electron Capture into the K and L-shells of the projectiles. We also observe an increase of the REC probability by 20-50% relative to the probability in a non-perturbed electron gas. The energy shift is in agreement with calculations using the linear response theory, whereas the local electron density enhancement is much smaller than predicted by the same model. This shows that, for the small values of the adiabaticity parameter achieved in our experiments, the density fluctuations are not strongly localized at the vicinity of the heavy ions.

Published
2005
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18. Development of artificial intelligence tools for invasive Doppler-based coronary microvascular assessment.

Author

Seligman, H., Patel, S.B., Alloula, A., Howard, J.P., Cook, C.M., Ahmad, Y., Waard, G.A. de, Pinto, M.E., Hoef, T.P. van de, Rahman, H., Kelshiker, M.A., Rajkumar, C.A., Foley, M., Nowbar, A.N., Mehta, S., Toulemonde, M., Tang, M.X., Al-Lamee, R., Sen, S., Cole, G., Nijjer, S., Escaned, J., Royen, N. van, Francis, D.P., Shun-Shin, M.J., Petraco, R., Seligman, H., Patel, S.B., Alloula, A., Howard, J.P., Cook, C.M., Ahmad, Y., Waard, G.A. de, Pinto, M.E., Hoef, T.P. van de, Rahman, H., Kelshiker, M.A., Rajkumar, C.A., Foley, M., Nowbar, A.N., Mehta, S., Toulemonde, M., Tang, M.X., Al-Lamee, R., Sen, S., Cole, G., Nijjer, S., Escaned, J., Royen, N. van, Francis, D.P., Shun-Shin, M.J., and Petraco, R.

Abstract

01 augustus 2023, Contains fulltext : 295922.pdf (Publisher’s version ) (Open Access), AIMS: Coronary flow reserve (CFR) assessment has proven clinical utility, but Doppler-based methods are sensitive to noise and operator bias, limiting their clinical applicability. The objective of the study is to expand the adoption of invasive Doppler CFR, through the development of artificial intelligence (AI) algorithms to automatically quantify coronary Doppler quality and track flow velocity. METHODS AND RESULTS: A neural network was trained on images extracted from coronary Doppler flow recordings to score signal quality and derive values for coronary flow velocity and CFR. The outputs were independently validated against expert consensus. Artificial intelligence successfully quantified Doppler signal quality, with high agreement with expert consensus (Spearman's rho: 0.94), and within individual experts. Artificial intelligence automatically tracked flow velocity with superior numerical agreement against experts, when compared with the current console algorithm [AI flow vs. expert flow bias -1.68 cm/s, 95% confidence interval (CI) -2.13 to -1.23 cm/s, P < 0.001 with limits of agreement (LOA) -4.03 to 0.68 cm/s; console flow vs. expert flow bias -2.63 cm/s, 95% CI -3.74 to -1.52, P < 0.001, 95% LOA -8.45 to -3.19 cm/s]. Artificial intelligence yielded more precise CFR values [median absolute difference (MAD) against expert CFR: 4.0% for AI and 7.4% for console]. Artificial intelligence tracked lower-quality Doppler signals with lower variability (MAD against expert CFR 8.3% for AI and 16.7% for console). CONCLUSION: An AI-based system, trained by experts and independently validated, could assign a quality score to Doppler traces and derive coronary flow velocity and CFR. By making Doppler CFR more automated, precise, and operator-independent, AI could expand the clinical applicability of coronary microvascular assessment.

Published
2023

29. Radiation effects in nuclear materials: Role of nuclear and electronic energy losses and their synergy

Author

Thomé, Lionel, Debelle, A., Garrido, F., Mylonas, S., Décamps, B., Bachelet, C., Sattonnay, G., Moll, S., Pellegrino, S., Miro, S., Trocellier, P., Serruys, Y., Velisa, G., Grygiel, C., Monnet, I., Toulemonde, M., Simon, P., Jagielski, J., Jozwik-Biala, I., Nowicki, L., Behar, M., Weber, W.J., Zhang, Y., Backman, M., Nordlund, K., and Djurabekova, F.

Published
2013
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42. Survey of Heavy-Ions Research at CIRIL/GANIL

Author

Cassimi, A., Balanzat, E., Bouffard, S., Doorhyee, E., Dural, J., Grandin, J. P., Jousset, J. C., Paumier, E., Toulemonde, M., Gras-Marti, Alberto, editor, Urbassek, Herbert M., editor, Arista, Néstor R., editor, and Flores, Fernando, editor

Published
1991
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43. Charge exchange processes of high energy heavy ions channeled in crystals

Author

Andriamonje, S., Chevallier, M., Cohen, C., Dural, J., Genre, R., Girard, Y., Groeneveld, K. O., Kemmler, J., Kirsch, R., L'Hoir, A., Maier, R., Poizat, J. C., Quéré, Y., Remillieux, J., Schmaus, D., Toulemonde, M., Araki, H., editor, Ehlers, J., editor, Hepp, K., editor, Jaffe, R. L., editor, Kippenhahn, R., editor, Ruelle, D., editor, Weidenmüller, H. A., editor, Wess, J., editor, Zittartz, J., editor, Beiglböck, W., editor, Berényi, D., editor, and Hock, G., editor

Published
1991
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