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1. Selection and Characterization of Geological Sites able to Host a Pilot-Scale CO2 Storage in the Paris Basin (GéoCarbone-PICOREF) Choix et caractérisation de sites géologiques propices à l’installation d’un pilote pour le stockage de CO2 dans le bassin de Paris (GéoCarbone-PICOREF)

Author

Brosse É., Badinier G., Blanchard F., Caspard E., Collin P.Y., Delmas J., Dezayes C., Dreux R., Dufournet A., Durst P., Fillacier S., Garcia D., Grataloup S., Hanot F., Hasanov V., Houel P., Kervévan C., Lansiart M., Lescanne M., Menjoz A., Monnet M., Mougin P., Nedelec B., Poutrel A., Rachez X., Renoux P., Rigollet C., Ruffier-Meray V., Saysset S., Thinon I., Thoraval A., and Vidal-Gilbert S.

Subjects
Chemical technology, TP1-1185, Energy industries. Energy policy. Fuel trade, HD9502-9502.5
Abstract

The objective of the GéoCarbone-PICOREF project was to select and characterize geological sites where CO2 storage in permeable reservoir could be tested at the pilot scale. Both options of storage in deep saline aquifer and in depleted hydrocarbon field were considered. The typical size envisioned for the pilot was 100 kt CO2 per year. GéoCarbone-PICOREF initially focused on a “Regional Domain”, ca. 200 × 150 km, in the Paris Basin. It was attractive for the following reasons: detailed geological data is available, due to 50 years of petroleum exploration; basin-scale deep saline aquifers are present, with a preliminary estimate of storage capacity which is at the Gt CO2 level, namely the carbonate Oolithe Blanche Formation, of Middle Jurassic age, generally located between 1500 and 1800 m depths in the studied area, and several sandstone formations of Triassic age, located between 2000 and 3000 m; several depleted oil fields exist: although offering storage capacities at a much lower level, they do represent very well constrained geological environments, with proven sealing properties; several sources of pure CO2 were identified in the area, at a flow rate compatible with the pilot size, that would avoid capture costs. 750 km of seismic lines were reprocessed and organized in six sections fitted on well logs. This first dataset provided improved representations of: the gross features of the considered aquifers in the Regional Domain; the structural scheme; lateral continuity of the sealing cap rocks. An inventory of the environmental characteristics was also made, including human occupancy, protected areas, water resource, natural hazards, potential conflicts of use with other resources of the subsurface, etc. From all these criteria, a more restricted geographical domain named the “Sector”, ca. 70 × 70 km, was chosen, the most appropriate for further selection of storage site(s). The geological characterization of the Sector has been as exhaustive as possible, with the reprocessing of additional 450 km of seismic lines, and the collection of a complete well-data base (146 petroleum wells). At this scale a relatively detailed characterization of the sedimentary layers could be done, in particular the formations potentially rich in aquifer units. For the Middle Jurassic carbonates observations were made on analogue sediments outcropping 150 km to the east of the Sector. A geological and numerical 3-D representation of the whole sedimentary pile of the Sector area was built. It forms a basis for constructing grids used by codes able to simulate various processes induced by CO2 injection (displacement of the fluids, pressure build-up and release, mechanical deformation, mineral interactions, control of the parameters used to check the local sealing efficiency, etc.). In parallel with that work on aquifers, GéoCarbone-PICOREF has access to all the petroleum data, including production data and reservoir modelling, of the Saint-Martin de Bossenay oil field, localized in the eastern part of the Sector. This was an opportunity to apply a comparable methodology and to test the capabilities of modelling codes to the specific case of a depleted hydrocarbon field, and to show some of the advantages of such a context with respect to a pilot-scale CO2 injection. Le projet GéoCarbone-PICOREF avait pour objectif de caractériser des sites propices à la réalisation d’un pilote national de stockage du CO2 en réservoir géologique perméable. Deux types de réservoir ont été examinés : des aquifères profonds, et des gisements d’hydrocarbures en voie d’épuisement. Les sites devaient être choisis de manière que le pilote puisse tester des problématiques qui concernent les futurs stockages de grande taille. GéoCarbone-PICOREF a d’abord sélectionné une “Zone régionale” d’environ 200 × 150 km dans le bassin de Paris, qui présente les avantages suivants : l’information géologique y est largement disponible, grâce aux travaux d’exploration pétrolière depuis 50 ans ; de grands aquifères salins y sont présents, dans les carbonates du Jurassique moyen situés en général entre 1500 et 1800 m de profondeur, et dans les formations gréseuses du Trias, entre 2000 et 3000 m; il existe plusieurs gisements d’hydrocarbures en voie d’épuisement : offrant des capacités de stockage moindres, leur intérêt est d’être bien connus sur le plan géologique et d’être dotés de bonnes qualités en termes de piégeage géologique. Après avoir retraité 750 km de lignes sismiques, et avoir assemblé celles-ci selon six coupes calées sur des données de puits, on a précisé sur la Zone régionale : les grandes caractéristiques des aquifères concernés ; la localisation des failles ; la continuité des couches très peu perméables situées au-dessus des réservoirs. Ces études ont permis de choisir un “Secteur”, d’environ 70 × 70 km, au sein duquel on a ensuite affiné l’investigation géologique : 450 km supplémentaires de lignes sismiques, collecte exhaustive des données de puits, caractérisation fine des propriétés réservoir. Des observations de terrain ont été faites sur des roches équivalentes portées à l’affleurement. Un modèle géologique et informatique complet du Secteur a été construit à partir de ces données. Il permet de générer des maillages pour la simulation de divers comportements attendus suite à l’injection de CO2 (déplacement et dissipation du gaz dans les couches réservoir, modification des pressions et des contraintes, déformation mécanique des terrains, interaction entre l’eau acidifiée et les minéraux, etc.). Parallèlement, le projet a pu avoir accès à toutes les données pétrolières du gisement de Saint-Martin de Bossenay, situé dans la partie Est du Secteur. Grâce à cette opportunité, on a montré quel parti pouvait être tiré, pour un pilote, d’un gisement d’hydrocarbures déjà largement exploité, doté d’un piège géologique qui a retenu des hydrocarbures pendant des millions d’années, et sur lequel un opérateur industriel dispose d’une infrastructure et d’un savoir-faire.

Published
2010
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2. A two-dimensional space-time terahertz memory in bulk SrTiO3

Author

Blanchard, F., Nkeck, J. E., Guiramand, L., Zibod, S., Dolgaleva, K., Arikawa, T., and Tanaka, K.

Subjects
Condensed Matter - Materials Science, Physics - Optics
Abstract

Ferroelectric materials offer unprecedented ultrafast responses and are of great interest for the development of new polarizable media under the influence of an electromagnetic field. Recent research efforts have demonstrated the role of optical excitation and intense terahertz (THz) pulses in inducing a polar order and revealing a hidden phase transition in SrTiO3 (STO), respectively. Here we show that the surface of STO crystals at room temperature act as ultrafast sensors that enable sub-picosecond switching through the Kerr effect and multi-ps recording of polar THz intensity with spatial resolution below the diffraction limit through dipole alignment relaxation. The contrast sensitivity and spatial resolution achieved by in the STO sensor are significantly superior to those of present-day near-field THz sensors based on the linear Pockels effect, and more importantly, its ability to remain polarized for several picoseconds opens the door to a new strategy for building an ultrafast space-time THz memory.

Published
2022
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3. Near-optimal intense and powerful terahertz source by optical rectification in lithium niobate crystal

Author

Guiramand, L., Nkeck, J. E., Ropagnol, X., Ozaki, T., and Blanchard, F.

Subjects
Physics - Optics
Abstract

Using an affordable ytterbium laser with sub-mJ of energy combined with a novel pulse compression technique, we demonstrate an extremely competitive state-of-the-art terahertz (THz) source with 53 mW of average power and 310 kV/cm at focus from the tilted-pulse front pumping scheme in lithium niobate at room temperature. Key points of this demonstration include the use of a pump pulse duration of 280 fs in combination with an echelon mirror. Our results present unmatched combined characteristics and are highly competitive with the existing THz sources pumped at the mJ range. This demonstration is a step towards the democratization of access to intense and powerful THz pulses., Comment: 6 pages, 5 figures, 1 table

Published
2021

4. Near-field terahertz imaging of a discontinuity in split ring resonator array

Author

Doi A., Tanaka T., Ooi K., Blanchard F., and Tanaka K.

Subjects
Physics, QC1-999
Abstract

We investigated the spatiotemporal evolution of single cycle terahertz pulses transmitted through a split ring resonator array including a void. Using a large-field-ofview terahertz microscope, we revealed the confinement and enhancement of the defect mode.

Published
2013
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6. OP0096 ELIMINATION OF CD45RCHIGH T AND B CELLS BY ANTI-CD45RC mAb LEAD TO EFFICIENT CONTROL OF EXPERIMENTAL RHEUMATOID ARTHRITIS

Author

Bergua, C., primary, Besnard, M., additional, Ahmil, G., additional, Ouisse, L. H., additional, Vimond, N., additional, Salama, A., additional, Evrard, B., additional, Brisebard, E., additional, Collette, A., additional, Blanchard, F., additional, Larcher, T., additional, Van Brempt, R., additional, Le Goff, B., additional, Anegon, I., additional, and Guillonneau, C., additional

Published
2024
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9. Terahertz phase imaging of large-aperture liquid crystal modulator with ITO interdigitated electrode.

Author

Le Bourlout, A, Pusenkova, A, Lafrenière-Greig, J, Ropagnol, X, Galstian, T, and Blanchard, F

Subjects
TERAHERTZ time-domain spectroscopy, LIQUID crystal states, LAMB waves, PHASE modulation, LIQUID crystals
Abstract

We have fabricated and characterized a large-aperture electrooptic phase modulation device operating in the terahertz (THz) frequency range. The device consists of a 1.6 mm thick nematic liquid crystal placed between glass plates with a novel interdigitated electrode design. Using THz time-domain spectroscopy (THz-TDS) coupled with raster scanning imaging, we evaluated phase modulation across a 25 mm diameter LC device and mapped the spatial uniformity of phase shift. Our results confirm the functionality of the LC cell as a controllable quarter-wave plate at 0.26 THz and half-wave plate at 0.52 THz. This work contributes to the development of large-aperture and transmissive LC devices as low-cost phase plates for THz waves and paves the way for future applications in THz modulators. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Broadband heterodyne electro-optic sampling using a lithium niobate ridge-waveguide

Author

Mine, S., Gandubert, G., Nkeck, J. E., Ropagnol, X., Murate, K., Blanchard, F., Mine, S., Gandubert, G., Nkeck, J. E., Ropagnol, X., Murate, K., and Blanchard, F.

Abstract

We demonstrated the bandwidth broadening of terahertz waves detected by heterodyne electro-optical sampling by implementing a ridge waveguide structure in a lithium niobate (LiNbO3) crystal. Such an approach effectively reduces absorption loss, eases the phase matching condition and enhances the nonlinear interaction length through the optical confinement effect. As a result, we have more than doubled the bandwidth and improved the signal-to-noise ratio compared with an equivalent approach in a bulk LiNbO3 crystal. Heterodyne electro-optic sampling in a ridged-waveguide structure is only marginally dependent on the probe beam wavelength, suggesting its potential as a versatile method for broadband terahertz detection.

Published
2024

13. Single-cycle THz pulses with amplitudes exceeding 1 MV/cm generated by optical rectification in LiNbO3

Author

Hirori, H., Doi, A., Blanchard, F., and Tanaka, K.

Subjects
Physics - Optics
Abstract

Using the tilted-pulse-intensity-front scheme, we generate single-cycle terahertz (THz) pulses by optical rectification of femtosecond laser pulses in LiNbO3. In the THz generation setup, the condition that the image of the grating coincides with the tilted-optical-pulse front is fulfilled to obtain optimal THz beam characteristics and pump-to-THz conversion efficiency. The designed focusing geometry enables tight focus of the collimated THz beam with a spot size close to the diffraction limit, and the maximum THz electric field of 1.2 MV/cm is obtained.

Published
2011
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14. Real-time terahertz near-field microscope

Author

Blanchard, F., Doi, A., Tanaka, T., Hirori, H., Tanaka, H., Kadoya, Y., and Tanaka, K.

Subjects
Physics - Optics
Abstract

Terahertz (THz) waves have been significantly developed in the last fifteen years because of their great potential for applications in industrial and scientific communities1,2. The unique properties of THz waves as transparency for numerous materials and strong absorption for water-based materials are expected to broadly impact biosensing3 such as medical imaging4, chemical identifications5, and DNA recognition6. In particular, for accessing information within a scale comparable to the cell size where interactions between cell membrane and other organelle structures occur, micron size spatial resolution is required. Due to the large wavelength, however, the joint capability of THz near-field imaging with real-time acquisition, which is a highly desirable ability for observing real-time changes of in vivo sample, remains undone. Here, we report a real-time THz near-field microscope with a high dynamic range that can capture images of a 370 x 740 {\mu}m2 area at 35 frames per second. We achieve high spatial resolution on a large area by combining two novel techniques: THz pulse generation by tilted-pulse-front excitation7 and electro-optic (EO) balanced imaging detection using a thin crystal. To demonstrate the microscope capability, we reveal the field enhancement at the gap position of a dipole antenna after the irradiation of a THz pulse. Our results are the first demonstration of a direct quantification of a 2-dimensional subwavelength THz electric field taken in real-time., Comment: 5 figures

Published
2011
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15. Anisotropic ultrafast electron dynamics induced by high-field terahertz pulses in n-doped InGaAs

Author

Blanchard, F., Golde, D., Su, F. H., Razzari, L., Sharma, G., Morandotti, R., Ozaki, T., Reid, M., Kira, M., Koch, S. W., and Hegmann, F. A.

Subjects
Condensed Matter - Materials Science
Abstract

The anisotropic effective mass of electrons is directly measured using time-resolved THz- pump/THz-probe techniques in a n-doped InGaAs semiconductor thin film. A microscopic theory is used to attribute this anisotropy in the THz probe transmission to the nonparabolicity of the conduction band. Self-consistent light-matter coupling is shown to contribute significantly to the THz response.

Published
2010

16. Nonlinear ultrafast modulation of the optical absorption of few cycle terahertz pulses in n-doped semiconductors

Author

Razzari, L, Su, F H, Sharma, G, Blanchard, F, Ayesheshim, A, Bandulet, H-C, Morandotti, R, Kieffer, J-C, Ozaki, T, Reid, M, and Hegmann, F A

Subjects
Physics - Optics
Abstract

We use an open-aperture Z-scan technique to show how intense few-cycle terahertz pulses can experience a nonlinear bleaching of absorption in an n-doped semiconductor due to terahertz-electric-field-driven intervalley scattering of electrons in the conduction band. Coherent detection of the transmitted terahertz pulse waveform also allows the nonlinear conductivity dynamics to be followed with sub-picosecond time resolution. Both the Z-scan and time-domain results are found to be in agreement with our theoretical analysis., Comment: Submitted to Physical Review B, 16 pages, 3 figures, 1 table

Published
2009
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27. Osteoarthritic Chondrocytes Undergo A Glycolysis-Related Metabolic Switch Upon Exposure To Il-1β Or Tnf-Α

Author

Defois, A., primary, Bon, N., additional, Charpentier, A., additional, Georget, M., additional, Blanchard, F., additional, Hamel, A., additional, Waast, D., additional, Armengaud, J., additional, Renoult, O., additional, Pecqueur, C., additional, Maugars, Y., additional, Boutet, M.-A., additional, Guicheux, J., additional, and Vinatier, C., additional

Published
2023
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32. Pulvérisation réactive pour le dépôt de nitrure de vanadium comme électrodes de micro-supercondensateurs performants et stables en cyclage

Author

Jrondi, A., Lethien, Christophe, Roussel, Pascal, Blanchard, F., Deresmes, D., Institut d’Électronique, de Microélectronique et de Nanotechnologie - UMR 8520 (IEMN), Centrale Lille-Université de Lille-Centre National de la Recherche Scientifique (CNRS)-Université Polytechnique Hauts-de-France (UPHF)-JUNIA (JUNIA), Université catholique de Lille (UCL)-Université catholique de Lille (UCL), Circuits Systèmes Applications des Micro-ondes - IEMN (CSAM - IEMN ), Université catholique de Lille (UCL)-Université catholique de Lille (UCL)-Centrale Lille-Université de Lille-Centre National de la Recherche Scientifique (CNRS)-Université Polytechnique Hauts-de-France (UPHF)-JUNIA (JUNIA), Unité de Catalyse et Chimie du Solide - UMR 8181 (UCCS), Université d'Artois (UA)-Centrale Lille-Institut de Chimie du CNRS (INC)-Université de Lille-Centre National de la Recherche Scientifique (CNRS), Plateforme de Caractérisation Multi-Physiques - IEMN (PCMP - IEMN), no information, Fédération Française des Matériaux, PCMP PCP, and Renatech Network

Subjects
[SPI]Engineering Sciences [physics]
Abstract

National audience

Published
2022

41. Binocular mirror–symmetric microsaccadic sampling enables Drosophila hyperacute 3D vision

Author

Kemppainen, J. (Joni), Scales, B. (Ben), Haghighi, K. R. (Keivan Razban), Takalo, J. (Jouni), Mansour, N. (Neveen), McManus, J. (James), Leko, G. (Gabor), Saari, P. (Paulus), Hurcomb, J. (James), Antohi, A. (Andra), Suuronen, J.-P. (Jussi-Petteri), Blanchard, F. (Florence), Hardie, R. C. (Roger C.), Song, Z. (Zhuoyi), Hampton, M. (Mark), Eckermann, M. (Marina), Westermeier, F. (Fabian), Frohn, J. (Jasper), Hoekstra, H. (Hugo), Lee, C.-H. (Chi-Hon), Huttula, M. (Marko), Mokso, R. (Rajmund), Juusola, M. (Mikko), Kemppainen, J. (Joni), Scales, B. (Ben), Haghighi, K. R. (Keivan Razban), Takalo, J. (Jouni), Mansour, N. (Neveen), McManus, J. (James), Leko, G. (Gabor), Saari, P. (Paulus), Hurcomb, J. (James), Antohi, A. (Andra), Suuronen, J.-P. (Jussi-Petteri), Blanchard, F. (Florence), Hardie, R. C. (Roger C.), Song, Z. (Zhuoyi), Hampton, M. (Mark), Eckermann, M. (Marina), Westermeier, F. (Fabian), Frohn, J. (Jasper), Hoekstra, H. (Hugo), Lee, C.-H. (Chi-Hon), Huttula, M. (Marko), Mokso, R. (Rajmund), and Juusola, M. (Mikko)

Abstract

Neural mechanisms behind stereopsis, which requires simultaneous disparity inputs from two eyes, have remained mysterious. Here we show how ultrafast mirror-symmetric photomechanical contractions in the frontal forward-facing left and right eye photoreceptors give Drosophila superresolution three-dimensional (3D) vision. By interlinking multiscale in vivo assays with multiscale simulations, we reveal how these photoreceptor microsaccades—by verging, diverging, and narrowing the eyes’ overlapping receptive fields—channel depth information, as phasic binocular image motion disparity signals in time. We further show how peripherally, outside stereopsis, microsaccadic sampling tracks a flying fly’s optic flow field to better resolve the world in motion. These results change our understanding of how insect compound eyes work and suggest a general dynamic stereo-information sampling strategy for animals, robots, and sensors.

Published
2022

46. SrTiO3, a near-field terahertz sensor

Author

Blanchard, F., primary, Nkeck, J. E., additional, Guiramand, L., additional, Zibod, S., additional, Dolgaleva, K., additional, Arikawa, T., additional, and Tanaka, K., additional

Published
2022
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