Bibliographies thématiques / Temporal cavities

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Littérature scientifique sur le sujet « Temporal cavities »

Auteur : Grafiati
Publié le 26 avril 2025

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Articles de revues sur le sujet "Temporal cavities"

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Fry, Edward S., Joe Musser, George W. Kattawar, and Peng-Wang Zhai. "Integrating cavities: temporal response." Applied Optics 45, no. 36 (2006): 9053. http://dx.doi.org/10.1364/ao.45.009053.

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Youngs, Robin. "Temporal bone histopathology of open mastoidectomy cavities." Journal of Laryngology & Otology 107, no. 6 (1993): 569–73. http://dx.doi.org/10.1017/s0022215100123734.

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Open cavity mastoidectomy remains the principle surgical treatment of middle ear cholesteatoma in the United Kingdom. A significant proportion of mastoid cavities are prone to intermittent or continuous discharge.In this study the temporal bone histopathology of four patients who had undergone open cavity mastoidectomy is presented. Cavities were predominantly lined with stratified keratinizing squamous epithelium. Residual air cells were obliterated by fibrous tissue, with no evidence of persistent respiratory epithelium. Where inflammatory changes were found, these consisted of areas of gran
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Tucker, Paul G. "TEMPORAL BEHAVIOR OF FLOW IN ROTATING CAVITIES." Numerical Heat Transfer, Part A: Applications 41, no. 6-7 (2002): 611–27. http://dx.doi.org/10.1080/104077802317418241.

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Lilienfein, N., C. Hofer, M. Högner, et al. "Temporal solitons in free-space femtosecond enhancement cavities." Nature Photonics 13, no. 3 (2019): 214–18. http://dx.doi.org/10.1038/s41566-018-0341-y.

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Rosanov, Nikolay N., George B. Sochilin, Vera D. Vinokurova, and Nina V. Vysotina. "Spatial and temporal structures in cavities with oscillating boundaries." Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 372, no. 2027 (2014): 20140012. http://dx.doi.org/10.1098/rsta.2014.0012.

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We review the general features of particles, waves and solitons in dynamical cavities formed by oscillating cavity mirrors. Considered are the dynamics of classical particles in one-dimensional geometry of a dynamical billiard, taking into account the non-elastic collisions of particles with mirrors, the (quasi-energy) states of a single quantum particle in a potential well with periodically oscillating wells, and nonlinear structures, including nonlinear Rabi oscillations, cavity optical solitons and solitons of Bose–Einstein condensates, in dynamical cavities or traps.
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Xue, Xiaoxiao, Xiaoping Zheng, and Bingkun Zhou. "Super-efficient temporal solitons in mutually coupled optical cavities." Nature Photonics 13, no. 9 (2019): 616–22. http://dx.doi.org/10.1038/s41566-019-0436-0.

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Perrone, M. R., C. Panzera, and D. Diso. "Coherence temporal evolution in Gaussian cavities of different lengths." Journal of the Optical Society of America A 15, no. 8 (1998): 2138. http://dx.doi.org/10.1364/josaa.15.002138.

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Rădulescu, Marian, Adela-Ioana Mocanu, Alexandra-Cristina Neagu, Mihai-Adrian Schipor, and Horia Mocanu. "Defining the URCOTEBS System as a Unilateral Radiographic–Stochastic Model for the Complementary States (Health/Disease) of the D-Organ and Middle-Ear Mucosa." Applied Sciences 13, no. 23 (2023): 12861. http://dx.doi.org/10.3390/app132312861.

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The middle ear (ME) is a notoriously complicated anatomic structure, geometrically arranged as irregular interlinked spheroidal and polyhedric cavities dug inside the temporal bone (TB). The bony walls of these cavities are radiopaque and form the bony support for the D-Organ that we have previously defined as corresponding to the epithelium covering the Antrum walls (belonging to the central cavities of the middle ear) and the walls of mastoid and petrous cavities (the peripheral cavities of the ME). The aim of the study is to define an exact method for categorizing a Unilateral Radiographic
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Han, Xue, Ying Hu, Xiaocong Zhu, and Lixi Huang. "Broadband noise absorption by time-varying devices." Journal of the Acoustical Society of America 154, no. 4_supplement (2023): A187. http://dx.doi.org/10.1121/10.0023216.

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A resonator array can broaden the effective sound absorption bandwidth by using the structure with multiple cavities in parallel or in series in space. However, this kind of fixed mechanical structure cannot flexibly adapt to different noise sources, which severely limits the development prospect of the resonator array in practical applications. In this paper, a time-varying resonator is proposed based on a shunted electrical circuit, realizing the equivalent effect of multi-cavities in space. Based on the working principle of spatial and temporal resonators, the theoretical models are establi
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Matthieu, Ruppin, Catheline Stefan, and Roux Philippe. "One channel spatio-temporal inversion of acoustic wave in reverberant cavities." Journal of the Acoustical Society of America 130, no. 4 (2011): 2515. http://dx.doi.org/10.1121/1.3655026.

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Thèses sur le sujet "Temporal cavities"

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Klaedtke, Andreas. "Spatio-temporal non-linear dynamics of lasing in micro-cavities full vectorial Maxwell-Bloch FDTD simulations /." [S.l. : s.n.], 2004. http://www.bsz-bw.de/cgi-bin/xvms.cgi?SWB12103645.

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Phung, Viet Tiep. "Cavity ring-down spectroscopy of astrophysically relevant molecular species, toward quantitative and high resolution studies using spectro-temporal properties of high finesse cavities." Thesis, Université Paris-Saclay (ComUE), 2016. http://www.theses.fr/2016SACLS188/document.

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Le principal objectif de ce travail de thèse a été de développer de nouvelles techniques de spectroscopie moléculaire afin obtenir de nouvelles données spectroscopiques dans le visible et le proche infrarouge pour des molécules, radicaux ou ions d’intérêt astrophysiques. La première partie de ce travail a consisté en l’étude d’harmoniques élevés, très faibles en intensité, de bandes vibrationnelles de la molécule HC₃N (cyanoacetylène), par la technique de spectroscopie CRDS. La deuxième partie a consisté en l’étude spectroscopique d’espèces instables radicalaires. Pour cela, une décharge induc
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JOURDAIN, HUTH JOELLE. "Interet du lambeau de muscle temporal dans les cavites d'ethmoidectomie et maxillectomie : etude anatomique et clinique." Limoges, 1989. http://www.theses.fr/1989LIMO0131.

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Catheline, Stefan. "ETUDES EXPERIMENTALES EN ACOUSTIQUE : DE L'ELASTOGRAPHIE AUX CAVITES REVERBERANTES." Habilitation à diriger des recherches, Université Paris-Diderot - Paris VII, 2006. http://tel.archives-ouvertes.fr/tel-00378138.

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Le premier chapitre de ce mémoire porte sur l'élastographie transitoire, une nouvelle technique ultrasonore capable de cartographier l'élasticité de cisaillement du corps humain. Cette information est utilisée depuis longtemps par les médecins lorsqu'ils procèdent à un examen par palpation. Un outil de palpation ultrasonore pourrait être extrêmement efficace pour dépister ou diagnostiquer certains cancers comme celui du sein par exemple. C'est le sujet de la première partie. La thèse de Laurent Sandrin (novembre 2000) a montré la faisabilité de cette technique d'imagerie pour localiser et mesu
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PINI, MICHEL. "Interet du lambeau temporo-frontal dans la reparation des cavites d'exenteration orbitaire." Aix-Marseille 2, 1990. http://www.theses.fr/1990AIX20090.

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Portal, Nicolas. "Segmentation et suivi temporel automatiques des cavités cardiaques en IRM dynamique." Electronic Thesis or Diss., Sorbonne université, 2024. http://www.theses.fr/2024SORUS306.

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Le but de la thèse est de développer un algorithme d'apprentissage profond capable de segmenter toutes les cavités cardiaques sur des séquences d'images IRM petit axe. L'algorithme sera utilisé pour initialiser et contraindre spatialement le logiciel « cardio-track », capable d'effectuer une segmentation semi-automatique sur l'ensemble du cycle cardiaque. Cet algorithme permettra d'extraire des biomarqueurs à même de faciliter le diagnostique de pathologies cardiaques. Dans un second temps, un algorithme permettant de suivre des points de contour sur des séquences IRM (IRM dynamique) sera déve
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Dioum, Bakhao. "Manipulation and Characterization of Multimode Quantum Light in Photonic Systems." Electronic Thesis or Diss., Université de Lille (2022-....), 2024. http://www.theses.fr/2024ULILR072.

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Cette thèse fait progresser l'optique quantique multimode à travers deux contributions théoriques et pratiques majeures.Premièrement, nous introduisons les cavités temporelles comme une nouvelle approche pour le filtrage des modes temporels, en exploitant les principes de dualité espace-temps pour transposer les principes des cavités de nettoyage de modes spatiaux au domaine temporel. Contrairement aux approches existantes, cette opération de filtrage ne repose pas sur des interactions non linéaires ou sur l'accord de phase, préserve la fréquence porteuse et maintient intacte la structure des
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SOULHIARD, FRANCOIS. "Interet du lambeau de muscle temporal dans la reconstruction de la cavite buccale : etude anatomique et clinique." Lyon 1, 1990. http://www.theses.fr/1990LYO1M088.

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Soltane, Ayoub. "Contributions expérimentales originales en chambres réverbérantes à brassage de modes et en cavités surdimensionnées." Thesis, Limoges, 2018. http://www.theses.fr/2018LIMO0092/document.

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La chambre réverbérante à brassage de modes (CRBM) est une cavité métallique fermée surdimensionnée, équipée d’un brasseur de modes. Le brassage de modes rend le champ électromagnétique homogène et isotrope à l’intérieur de la CRBM (dans son volume utile). Cette thèse illustre tout d’abord une nouvelle méthode pour évaluer les performances d’un brasseur de modes (via le spectre Doppler). Ensuite, elle présente une nouvelle méthode permettant de mesurer la surface équivalente radar (SER) d’un objet canonique en utilisant la technique de fenêtrage temporel ou time-gating. Enfin, elle présente un
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Li, Yifeng. "Développement d’outils de simulation numérique pour l’élastodynamique non linéaire : application à l’imagerie acoustique de défauts à l’aide de transducteur à cavité chaotique." Thesis, Ecole centrale de Lille, 2009. http://www.theses.fr/2009ECLI0014/document.

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Dans cette thèse nous proposons de développer un système d’imagerie ultrasonore innovante de micro- défauts basé sur l’utilisation conjointe de techniques d’acoustique non linéaire et du concept de "transducteur à cavité chaotique". Ce transducteur correspond à la combinaison d’une céramique piézoélectrique collée sur une cavité de forme chaotique et du principe de retournement temporel. La faisabilité et les performances de ce nouveau système sont explorées par des simulations numériques. Des paramètres optimaux d’utilisation pour une implémentation expérimentale sont proposés. Une grande par
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Chapitres de livres sur le sujet "Temporal cavities"

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Kongmebhol, Pailin, and Jose Florencio Lapeña. "Imaging of Ear, Nose, and Throat Tuberculosis: Temporal Bone, Sinonasal Cavities, Pharynx, and Larynx." In Imaging of Tuberculosis. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-07040-2_7.

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O’Donnell, Colin F. J., and Jane A. Sedgeley. "Causes and Consequences of Tree-Cavity Roosting in a Temperate Bat, Chalinolobus tuberculatus, from New Zealand." In Functionaland Evolutionary Ecology of Bats. Oxford University PressNew York, NY, 2006. http://dx.doi.org/10.1093/oso/9780195154726.003.0017.

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Abstract Among the 79 taxa of Microchiroptera in Australasia, frequency of treecavity roosting increases as mean annual temperature decreases and latitude increases. This gradient suggests there may be significant thermal benefits to tree-cavity roosting in cold climates. We explore the causes and consequences of tree-cavity roosting during summer months in Chalinolobus tuberculatus, a species that occurs at the southern limit (highest latitude) of this gradient. Five geographically distinct populations are compared. C. tuberculatus selected the oldest and largest trees for maternity roosting and avoided roosting under bark and in caves and buildings, despite the abundance of these sites. It also selected small, well-insulated cavities that accrue significant energy conservation benefits compared with other potential roosts (the ‘‘thermal hypothesis’’). Reproductive females selected roosts that reach maximum temperatures late in the day and retain high temperatures through the night, thus benefiting nonvolant young. Productivity and survival were significantly higher in populations that selected well-insulated roosts. We propose that selection favors smaller, rather than larger, roosting group sizes in this cold, temperate climate. Smaller groups of bats that use relatively small, well-insulated cavities have higher survival rates than larger groups that use larger, less insulated cavities. C. tuberculatus formed behaviorally, though not geographically, isolated subgroups. All colonies exhibited extreme roost-site lability on a daily basis, but strong long-term philopatry among pools exceeding 100 roosts. Most roosts were used once per year but date of reuse was similar each year. Strict temporal philopatry suggests that bats do not switch roosts in response to daily variability in weather conditions. The thermal hypothesis suggests that development of grouping behavior may be an incidental response to physiological constraints on thermoregulation and reproduction. Nevertheless, social interdependence would increase the probability that clusters are large enough on any one day to be thermally beneficial and individuals could improve the reproductive success of other relatives within the group. We conclude by outlining hypotheses that could test the general applicability of findings to tree-cavity roosting bats.
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Ribas, Guilherme, Eduardo Ribas, and Ramez W. Kirollos. "Surgical management of intraventricular lesions." In Oxford Textbook of Neurological Surgery, edited by Ramez W. Kirollos, Adel Helmy, Simon Thomson, and Peter J. A. Hutchinson. Oxford University Press, 2019. http://dx.doi.org/10.1093/med/9780198746706.003.0035.

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Deep understanding of neuroanatomy is mandatory in planning and execution of surgery for intraventricular lesions. These operative procedures include both open and endoscopic approaches, and choosing the appropriate trajectory to the various parts of the ventricles can minimize the resulting morbidity of the approach, which may occur in addition to the potential risk to the surrounding structures during resection of the lesion itself. The use of the natural spaces provided by the cerebral fissures and sulci allows access to the ventricular cavities whenever possible, however, traversing neural tissue eventually is inevitable. The juxta-midline location of the frontal horns and body of the lateral ventricle and the third ventricle allows the use of interhemispheric approaches. On the other hand, transcortical/trans-sulcal approaches are necessary for lesions located within the atrium or temporal horns of the lateral ventricle. In planning these approaches not only exquisite knowledge of the functional anatomy of the cortex is required, but also understanding the subcortical architecture of the white matter fibres to choose the safest rather than just the shortest route. Furthermore, appreciating the potential morbidity from injuring the surrounding intra- and peri-ventricular structures and awareness of the blind spots related to the various trajectories cannot be underestimated. Surgery for fourth ventricular lesions is covered elsewhere.
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Atkinson, Martin E. "The structure of the central nervous system." In Anatomy for Dental Students. Oxford University Press, 2013. http://dx.doi.org/10.1093/oso/9780199234462.003.0023.

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It is important to have a picture of the relationship of the brain and spinal cord to the bones of the skull and vertebral column that house and protect them and the protective layers of connective tissues known as the meninges that cover the CNS; these lie between the bones and brain and spinal cord. The brain is housed within the skull which will be described in much more detail in Section 4 . As you can appreciate by feeling your own skull, the top, front, sides, and back are smoothly curved. The surface of the brain is similarly curved and conforms to the shape of the bones. Note that, in reality, it is really the other way round—brain shape determines the shape of the bones of the skull vault forming the braincase. If the top of the braincase and the brain are removed to reveal the floor of the cranial cavity formed by the bones of the cranial base, it is anything but smooth. Viewed from the lateral aspect and going from anterior to posterior, it is like three descending steps. This structure is shown diagrammatically in Figure 15.1 and shows how different parts of the brain conform to these steps. The first step lies above the nasal and orbital cavities and is known as the anterior cranial fossa ; it houses the frontal lobes of the cerebral hemispheres. The second step is the middle cranial fossa and contains the temporal lobes of each cerebral hemisphere laterally and the midbrain and pons medially. The final step is the posterior cranial fossa where the rest of the brainstem and cerebellum lie. The floor of the posterior fossa is pierced by the foramen magnum through which the medulla oblongata and spinal cord become continuous. The spinal cord occupies the vertebral canal running in the vertebral column. As you can see in Figure 3.5 , in adults, the cord occupies the vertebral canal from the upper border of the first cervical vertebra, the atlas, down to the level of the disc between the first and second lumbar vertebrae.
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Chauhan, Arushi, and Pramod K. Avti. "Computational Approaches in Evaluating the 5-HT Subtype Receptor Mechanism of Action for Developing Novel Chemical Entities." In Frontiers in Computational Chemistry volume 7. BENTHAM SCIENCE PUBLISHERS, 2024. http://dx.doi.org/10.2174/9789815179033124070006.

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The G-protein coupled receptor GPCR family is the most numerous and diversified set of membrane receptors linked with various neurological disorders like Epilepsy, Alzheimer's disease, Fronto-temporal dementia, Vascular dementia, Parkinson's disease, and Huntington's disease. They provide messages to the cell by interacting with various ligands, which include hormones, neurotransmitters, and photons. They are the focus of roughly one-third of the medications on the market today. Similarly, the subtype of the serotonin receptor, 5-hydroxytryptamine 2B (5-HT2B), belongs to the G-protein receptor (GPCR) class-A family and is a sensitive class prone to deactivation and activation. There has been an increasing interest in the structural geometry of the receptor upon ligand binding to the allosteric site. The cavities at the receptor-lipid interface are an unusual allosteric binding region that presents numerous issues concerning ligand interactions and stability, binding site conformation, and how the lipid molecules alter all these molecular modeling mechanisms provide an insight into the docking and binding of drug and structural variations. For instance, ligand recognition in the neuronal adenosine receptor type 2A (hA2AR), a GPCR related to various neurodegenerative disorders, was investigated for its affinity against an inhibitor in a solvated neuronal-like membrane in metadynamics. The study provided a factual description of atomic interactions between the ligand and the receptor. It was supported by in vitro binding affinity studies for highlighting the importance of membrane lipids and protein extracellular loop regions, thus, providing valuable input for ligand design and targeting GPCR. Since 5HT is essential as a target for various pharmaceutical and recreational drugs, studies are gaining pace regarding its seven subtypes. In research, general molecular design is carried out, including homology modeling, docking, dynamics, and a hallucinogen-specific chemogenomics database for pharmacological analysis of small molecules and their potential targets. The analogs of piperidine and piperazine moieties were investigated against the 5HT2A receptor via pharmacophore modeling, 3D-Quantitative Structure-Activity Relationship (3D-QSAR), Molecular docking, and Absorption Distribution Metabolism Excretion (ADME) studies. With the onset of multiscale molecular modeling, it is now possible to apply multiple levels of theory to a system of interest, such as assigning chemically relevant regions to high quantum mechanics (QM) theory while treating the rest of the system with a classical force field (molecular mechanics (MM) potential). Several groups have explored the atomic level of interaction between the ligand and the allosteric site via molecular docking and dynamics simulations, followed by quantum chemical calculations to achieve specific results and strengthen the analysis. Quantum Mechanics/Molecular Mechanics (QM/MM) is employed by considering conformational plasticity to identify the critical binding site residues responsible for modifying GPCR function. By this path, the geometry of the receptor is analyzed either by fixing its position w.r.t. to the ligand or by choosing a bound ligand. Finally, structure-based drug design (SBDD) methodologies will be more efficient. Density Functional Theory (DFT) calculations reveal the stabilization of the molecular structure to depict the interactions. Various study groups also practice Fragment-based lead discovery methods for GPCR-based drug discovery. Creating leads from fragments is complicated, accurate, and dependable computational methods are employed to explore G protein-coupled receptor as a target via molecular dynamics simulations and the free energy perturbation approaches (MD/FEP). The overall knowledge of GPCR-mediated signaling can be expanded using such computational approaches.
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Groenenberg, Remco, Peter Fokker, and Marinus den Hartogh. "Salt production." In Geology of the Netherlands. Amsterdam University Press, 2025. https://doi.org/10.5117/9789463728362_ch16.

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Abstract In the Netherlands salt deposits are present within the Permian and Triassic intervals. The salt units in the upper Permian Zechstein Group attain especially great thicknesses (up to 1000 m) in the north of the country and the adjacent offshore areas. Salt is produced by solution mining in the eastern and northern Netherlands: rock salt from the Triassic Röt Formation and the Permian Zechstein Group and magnesium salt from the Zechstein Group. Total production amounts to 5.5-6.7 Mt/yr of rock salt and 0.25-0.30 Mt/yr of magnesium salt. Exploitation takes place between appx. 500 and 3000 m, the mining of Permian rock salt in the Barradeel concessions being the deepest worldwide. The rock salt is mainly used for the manufacturing of chlorine; most of the magnesium salt is used to produce magnesium oxide. The lifecycle of a salt mining concession can be divided into five phases: exploration, development and production, suspension, abandonment, and after-care. Optionally, a sixth phase, inbetween production and suspension, can be to use the salt caverns (large brine-filled cavities in the salt that develop during production) for storage of a gas (natural gas, nitrogen, hydrogen, air) or a liquid (oil products). The environmental effects of salt mining are largely comparable to the mining effects of oil and gas operations in the Netherlands. Mining can result in ground subsidence, excess noise levels from drilling and production processes and production of saline wastewater. These effects also include the requirement for pipelines and cables installation as well as the (temporary) change of mostly agricultural land usage, hence changing the landscape to a limited extent.
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Jordan, David, Louise Mawn, and Richard L. Anderson. "Orbital Bones." In Surgical Anatomy of the Ocular Adnexa. Oxford University Press, 2012. http://dx.doi.org/10.1093/oso/9780199744268.003.0009.

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The paired orbital cavities are formed by the facial bones and serve as sockets for the eyes. The orbital bones and the structures contained within the orbit (connective tissue, fat, nerves, vessels) act to support, protect, and maximize the function of the eye. In form, the orbit is roughly a quadrilateral pyramid with rounded angles and resembles a pear. Its volume in the average individual is 30 cc, of which the eyeball contributes about 7.5 cc (range: 6.9–9.0 cc). There are four surfaces: the roof, floor, lateral wall, and medial wall. The base of the pyramid is the opening onto the face (orbital entrance) and is circumscribed by the orbital margin (or orbital rim). The orbit narrows inward to its termination, the apex. The widest portion of the orbital cavity lies 5 to 10 mm behind the orbital rim. The orbit is made up of seven bones: frontal, sphenoid, zygomatic, malar, palatine, lacrimal, and ethmoid. Superiorly, the orbit is bordered by the anterior cranial fossa and the frontal sinus. Nasally, the ethmoid sinus is separated from the medial orbital wall by the thin lamina papyracea of the ethmoid bone. Inferiorly, the maxillary sinus lies beneath the orbital floor. The lateral orbit is bordered anteriorly by the temporalis fossa, and posteriorly it borders the middle cranial fossa. The lateral and medial walls of each orbit form an angle of approximately 45 ° with each other. The two medial walls diverge somewhat posteriorly but are almost parallel to each other (being about 3 mm farther apart posteriorly than at the orbital margin). The lateral orbital walls of the two orbits form a 90 ° angle with each other. The four walls of each orbit converge posteriorly toward the apex, where the optic canal and superior orbital fissure pass into the middle cranial fossa. The overall dimensions of the orbit, especially its depth, are quite variable. An orbital surgeon cannot rely on precise measurements as a guide to the exact location of the optic canal or superior orbital fissure.
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Actes de conférences sur le sujet "Temporal cavities"

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Gorza, Simon-Pierre. "Dissipative Temporal Solitons in Coherently Driven Phase Modulated Cavities and in Active PT-Symmetric Dimers." In Nonlinear Photonics. Optica Publishing Group, 2024. https://doi.org/10.1364/np.2024.nptu3c.5.

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We discuss recent results on the manipulation of temporal Kerr cavity solitons by external potentials and on the spontaneous formation of pulses by mode-locking in active PT-cavities. Our experimental demonstrations are performed with fiber resonators. Full-text article not available; see video presentation
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Castrignano, S., I. Ricciardi, T. Hansson, and S. Wabnitz. "Quadratic Optical Frequency Combs." In CLEO: Applications and Technology. Optica Publishing Group, 2024. http://dx.doi.org/10.1364/cleo_at.2024.jtu4k.1.

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Cheng, Xiang, Kai-Chi Chang, Yujie Chen, Murat Can Sarihan, and Chee Wei Wong. "Dual quantum comb generation via cascaded cavities." In CLEO: Fundamental Science. Optica Publishing Group, 2024. http://dx.doi.org/10.1364/cleo_fs.2024.ftu4f.2.

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We demonstrated the dual quantum comb generation via a cascaded cavities scheme. The dual quantum comb state is examined via temporally-resolved correlation measurements, verifying the quantum coherence of the constituent quantum comb states.
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Hansson, T., D. Modotto, and S. Wabnitz. "Complex temporal dynamics in optical cavities." In 2015 Spatiotemporal Complexity in Nonlinear Optics (SCNO). IEEE, 2015. http://dx.doi.org/10.1109/scno.2015.7324038.

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Mazor, Y., M. Cotrufo, and A. Alu. "Unitary Energy Transfer Between Coupled Cavities Using Temporal Switching." In 2021 Fifteenth International Congress on Artificial Materials for Novel Wave Phenomena (Metamaterials). IEEE, 2021. http://dx.doi.org/10.1109/metamaterials52332.2021.9577101.

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Dunlop, A. M., W. J. Firth, G. K. Harkness, and E. M. Wright. "Spatio-Temporal Master Equation for Folded Resonators." In The European Conference on Lasers and Electro-Optics. Optica Publishing Group, 1998. http://dx.doi.org/10.1364/cleo_europe.1998.cthi5.

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We recently presented a spatio-temporal master equation (ME) model for describing the evolution of optical fields in laser cavities [1]. This ME is a paraxial wave equation with a propagation operator explicitly dependent on the ABCD elements of the cavity. It exactly reproduces the cavity mode structure in the linear case, and gives excellent agreement with the more exact Huygens’ integral method when nonlinearity is added, e.g. for laser cavities containing a Kerr lens and a gaussian aperture [1].
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Bartolo, A., N. Vigne, M. Marconi, et al. "Spatial Multiplexing of Temporal Localized Structures in Degenerate Optical Cavities." In 2023 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC). IEEE, 2023. http://dx.doi.org/10.1109/cleo/europe-eqec57999.2023.10232687.

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Cooper, Lauren, Qiang Du, Dan Wang, et al. "Coherent Temporal Stacking of Tens-of-fs Laser Pulses." In CLEO: Science and Innovations. Optica Publishing Group, 2023. http://dx.doi.org/10.1364/cleo_si.2023.sf1n.6.

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We theoretically prove coherent pulse stacking can accommodate tens-of-fs pulse lengths when stacking large number of pulses. Experimental validation shows high-efficiency stacking of nine, 50fs bandwidth pulses with four Gires-Tournois Interferometric (GTI) cavities.
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Cao, Hui. "Spatio-temporal lasing dynamics in wave-chaotic and disordered cavities (Conference Presentation)." In Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XVII, edited by Takuo Tanaka and Din Ping Tsai. SPIE, 2019. http://dx.doi.org/10.1117/12.2525131.

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Greif, J., E. Miltenyi, I. Fischer, and W. Elasser. "Spatio-Temporal Dynamics of Broad Area Semiconductor Lasers in Long External Cavities." In EQEC'96. 1996 European Quantum Electronic Conference. IEEE, 1996. http://dx.doi.org/10.1109/eqec.1996.561712.

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Rapports d'organisations sur le sujet "Temporal cavities"

1

Sun, S., F. R. Brunton, T. R. Carter, et al. Porosity and permeability variations in the Silurian Lockport Group and A-1 carbonate unit, southwestern Ontario. Natural Resources Canada/CMSS/Information Management, 2023. http://dx.doi.org/10.4095/331902.

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This is the first regional porosity/permeability study to incorporate petroleum industry laboratory core analyses submitted to the Ontario government and managed by Ontario's Oil Gas and Salt Resources Library. This study comprises 11,759 analyses for the Early Silurian Lockport Group of southwestern Ontario from 150 drill cores. The Lockport Group consists of a cyclic succession of dolostones and minor limestones comprising, in ascending order: Gasport, Goat Island, Eramosa, and Guelph formations. This stacked carbonate succession was deposited on an eastward-deepening carbonate ramp, extendi
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