Bibliographies thématiques / Interfaces (Physical sciences)

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Littérature scientifique sur le sujet « Interfaces (Physical sciences) »

Auteur : Grafiati
Publié le 4 juin 2021
Mis à jour le 29 juillet 2024

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Articles de revues sur le sujet "Interfaces (Physical sciences)"

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Thomas, John M. "Advanced Catalysts: Interfaces in the physical and biological sciences." Advanced Materials 1, no. 8-9 (1989): 251–60. http://dx.doi.org/10.1002/adma.19890010803.

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Thomas, John M. "Advanced Catalysts: Interfaces in the Physical and Biological Sciences." Angewandte Chemie 101, no. 8 (January 13, 2006): 1105–14. http://dx.doi.org/10.1002/ange.19891010849.

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Thomas, John M. "Advanced Catalysts: Interfaces in the Physical and Biological Sciences." Angewandte Chemie International Edition in English 28, no. 8 (August 1989): 1079–88. http://dx.doi.org/10.1002/anie.198910791.

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Sarikaya, Mehmet. "Organic-inorganic interfaces in biological composites." Proceedings, annual meeting, Electron Microscopy Society of America 52 (1994): 426–27. http://dx.doi.org/10.1017/s0424820100169869.

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Biological hard tissues, such as bone, dentin, and mollusk shells, are composite materials incorporating an organic matrix and inorganic crystallites in a complex nano- and micro-architectural forms. The interest of physical sciences in biological composites stems from the fact that these materials are self assembled in an hierarchical fashion from molecular to macro scale, and that the resulting assemblies have properties that far exceed those of current synthetic materials of similar elemental or phase compositions. The objective of biomimetics is to either mimick structures of biological composites, biomimicking, or use the synthesis methodologies of organisms to produce new materials, bioduplication. In a biocomposite, substructure and crystallography of the inorganic component are highly ordered, its morphology and shape are species specific; these are all thought to be regulated by the organic matrix. The understanding of ructural relationship between the organic and ceramic components of a biological composite, therefore, is fundamental both to the understanding of mechanisms of biomineralization and to biomimetic design and synthesis of novel engineering materials. These issues will be addressed in the present paper.
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van den Hoven, Elise, and Ali Mazalek. "Grasping gestures: Gesturing with physical artifacts." Artificial Intelligence for Engineering Design, Analysis and Manufacturing 25, no. 3 (July 11, 2011): 255–71. http://dx.doi.org/10.1017/s0890060411000072.

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AbstractGestures play an important role in communication. They support the listener, who is trying to understand the speaker. However, they also support the speaker by facilitating the conceptualization and verbalization of messages and reducing cognitive load. Gestures thus play an important role in collaboration and also in problem-solving tasks. In human–computer interaction, gestures are also used to facilitate communication with digital applications, because their expressive nature can enable less constraining and more intuitive digital interactions than conventional user interfaces. Although gesture research in the social sciences typically considers empty-handed gestures, digital gesture interactions often make use of hand-held objects or touch surfaces to capture gestures that would be difficult to track in free space. In most cases, the physical objects used to make these gestures serve primarily as a means of sensing or input. In contrast, tangible interaction makes use of physical objects as embodiments of digital information. The physical objects in a tangible interface thus serve as representations as well as controls for the digital information they are associated with. Building on this concept, gesture interaction has the potential to make use of the physical properties of hand-held objects to enhance or change the functionality of the gestures made. In this paper, we look at the design opportunities that arise at the intersection of gesture and tangible interaction. We believe that gesturing while holding physical artifacts opens up a new interaction design space for collaborative digital applications that is largely unexplored. We provide a survey of gesture interaction work as it relates to tangible and touch interaction. Based on this survey, we define the design space of tangible gesture interaction as the use of physical devices for facilitating, supporting, enhancing, or tracking gestures people make for digital interaction purposes, and outline the design opportunities in this space.
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Morey, Julien, Jean-Bernard Ledeuil, Lénaïc Madec, and Hervé Martinez. "Methodological developments to expose and analyse buried interfaces in lithium solid-state batteries using ex situ, in situ and operando cycling." EPJ Web of Conferences 273 (2022): 01007. http://dx.doi.org/10.1051/epjconf/202227301007.

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Lithium solid-state batteries (SSBs) are a promising technology for electrochemical energy storage systems. So far, the performance of SSBs are mainly governed by the electro-chemo-mechanical properties of the diverse solid/solid interfaces and their evolution upon cycling. However, as these interfaces are buried in the battery stack, their comprehensive understanding remains a challenge. Here, we thus provide some advances in methodological developments for ex situ, in situ and operando cycling/analysis of these buried interfaces. It is showed that noble gaz ion milling at liquid nitrogen temperature is a suitable and reproducible method to prepare cross-section without any chemical/physical change even for polymer-based SSBs. In addition, innovative operando cycling using Auger analysis was proposed for the first time on a model Li/Li6PS5Cl stack. The interest of this approach is to be able to proceed without a dedicated electrochemical cell and to use the fully adjustable electron beam of the auger to create a surface potential difference followed by lithium migration then SEI (Solid Electrolyte Interface) formation and Li plating. Overall, this work should greatly benefits to all researchers working on buried interfaces study in lithium solid-state batteries.
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Xiao, Jian Zhuang, Qiong Liu, Jiang Tao Du, and Chuan Zeng Zhang. "Micro-Damage Mechanisms and Property Fluctuation of Recycled Aggregate Concrete." Key Engineering Materials 348-349 (September 2007): 61–64. http://dx.doi.org/10.4028/www.scientific.net/kem.348-349.61.

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In this paper, the basic damage mechanisms and the primary reasons for the property fluctuation of recycled aggregate concrete are investigated experimentally. By a comprehensive literature study and systematic laboratory tests, the interactions between the old and the new interfaces in recycled aggregate concrete are analyzed. In particular, the damage initiation and evolution mechanisms on the old and the new interfaces are studied in details. The essential factors affecting the fluctuation and its extent are investigated from the point of view of material sciences. The present results imply that the qualitative and quantitative changes of the old and the new interfaces during the loading process induce a notable fluctuation of the mechanical and the physical properties of recycled aggregate concrete. To reduce the fluctuation and improve the mechanical properties of the recycled aggregate concrete, effective controlling and processing measures are suggested and discussed.
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Kitaev, Yu E., A. S. Krylov, and T. I. Maksimova. "Soft mode mechanism of the transition into the low-temperature ferroelastic phase in K-=SUB=-3-=/SUB=-Na(CrO-=SUB=-4-=/SUB=-)-=SUB=-2-=/SUB=- crystals." Физика твердого тела 58, no. 12 (2016): 2423. http://dx.doi.org/10.21883/ftt.2016.12.43867.187.

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The sequence of phase transitions P3m1 -> C2/m -> C2/c in K3Na(CrO4)2 crystals and existence of the intermediate phase have been studied both experimentally by the Raman scattering method and theoretically by programs and retrieval tools of the Bilbao Crystallographic Server. A zone-edge soft mode responsible for a transition from the intermediate C2/m to a low-symmetry C2/c phase at T=210 K has been discovered experimentally for the first time. The symmetry of the soft mode has been established theoretically to be A2+. The temperature interval of the intermediate monoclinic phase has been determined to be 239-210 K. This work was supported by a grant from the Department of Physical Sciences of the Russian Academy of Sciences within the framework of the program "Basic Optical Spectroscopy and Its Applications."
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Broehan, Jasmin, Nils Kuelper, and Frank Thielecke. "Seamless Transitions from Logical to Physical Avionics Architecture Models for Preliminary Aircraft Systems Design." INCOSE International Symposium 33, no. 1 (July 2023): 1315–32. http://dx.doi.org/10.1002/iis2.13084.

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AbstractThe transition of federated aviation electronics (avionics) systems to Integrated Modular Avionics (IMA) concepts leads to a higher integration of functions, which reduces the amount of equipment and therefore system mass. However, these benefits are accompanied by a strong increase in system complexity and more interdependencies. Moreover, further digitalization and automation of aircraft functions lead to a higher impact of avionics in terms of equipment number and energy consumption. One challenge arises from the fact that the IMA platform design starts in parallel to the design of other aircraft on‐board systems, for which the platform shall provide resources like computing power. This leads to a high uncertainty during early design phases on the one hand and to a complex design process including many data and tool interfaces on the other hand. In order to meet these challenges, seamless model‐based design approaches are being broadly investigated. For this purpose, standardized and automated interfaces between different design steps, tools, and stakeholders are needed. In this work, a formalized avionics architecture design process is proposed to support a seamless model‐based tool chain from systems architecting to detailed system design. Methods to handle uncertainties, to provide standardized model interfaces, and to automate transitions between model abstraction levels are included. Overall, this reduces manual effort and the introduction of errors that would lead to high costs during system implementation.
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Laouina, Zineb, Lynda Ouchaouka, Mohamed Moussetad, Soumia Mordane, and Mohamed Radid. "Remote Lab Experiments in Mechanic: The Compound Pendulum." International Journal of Online and Biomedical Engineering (iJOE) 19, no. 02 (February 16, 2023): 23–41. http://dx.doi.org/10.3991/ijoe.v19i02.37061.

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In the teaching of experimental sciences, practical work plays a crucial role since it allows learners to transfer the knowledge acquired in theoretical courses into practical skills. For this purpose, laboratories allow learning by experience and aim at involving students, which reinforces learning receptivity. Recent years have seen an increasing use of online labs, including both virtual and remote labs, Remote labs, providing online interfaces to physical labs, allow students to conduct experiments with real-world equipment anywhere and at any time. This paper proposes a model of design, development and implementation of a remote manipulation in an E-Lab. It is the compound pendulum which is part of the handling offered to the students of the 1st year of university in the field of physical sciences. The aim of this paper is to make this approach available to allow more experiments on a digital platform in order to allow learning for all, independently of time and place.
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Thèses sur le sujet "Interfaces (Physical sciences)"

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Lee, Long. "Immersed interface methods for incompressible flow with moving interfaces /." Thesis, Connect to this title online; UW restricted, 2002. http://hdl.handle.net/1773/6789.

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Marmol, Leonardo. "Customized Interfaces for Modern Storage Devices." FIU Digital Commons, 2017. http://digitalcommons.fiu.edu/etd/3165.

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In the past decade, we have seen two major evolutions on storage technologies: flash storage and non-volatile memory. These storage technologies are both vastly different in their properties and implementations than the disk-based storage devices that current soft- ware stacks and applications have been built for and optimized over several decades. The second major trend that the industry has been witnessing is new classes of applications that are moving away from the conventional ACID (SQL) database access to storage. The resulting new class of NoSQL and in-memory storage applications consume storage using entirely new application programmer interfaces than their predecessors. The most significant outcome given these trends is that there is a great mismatch in terms of both application access interfaces and implementations of storage stacks when consuming these new technologies. In this work, we study the unique, intrinsic properties of current and next-generation storage technologies and propose new interfaces that allow application developers to get the most out of these storage technologies without having to become storage experts them- selves. We first build a new type of NoSQL key-value (KV) store that is FTL-aware rather than flash optimized. Our novel FTL cooperative design for KV store proofed to simplify development and outperformed state of the art KV stores, while reducing write amplification. Next, to address the growing relevance of byte-addressable persistent memory, we build a new type of KV store that is customized and optimized for persistent memory. The resulting KV store illustrates how to program persistent effectively while exposing a simpler interface and performing better than more general solutions. As the final component of the thesis, we build a generic, native storage solution for byte-addressable persistent memory. This new solution provides the most generic interface to applications, allow- ing applications to store and manipulate arbitrarily structured data with strong durability and consistency properties. With this new solution, existing applications as well as new “green field” applications will get to experience native performance and interfaces that are customized for the next storage technology evolution.
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Leskovar, Michael. "The stability of interfaces between dissimilar materials /." Thesis, Connect to this title online; UW restricted, 1998. http://hdl.handle.net/1773/9728.

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Chen, Chun-Chung. "Understanding avalanche systems through underlying interface dynamics /." Thesis, Connect to this title online; UW restricted, 2002. http://hdl.handle.net/1773/9755.

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Millner, Amon Daran. "Hook-ups : how youth learn through creating physical computer interfaces." Thesis, Massachusetts Institute of Technology, 2005. http://hdl.handle.net/1721.1/32508.

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Thesis (S.M.)--Massachusetts Institute of Technology, School of Architecture and Planning, Program in Media Arts and Sciences, 2005.<br>Includes bibliographical references (p. 129-130).<br>The Hook-ups project introduces a new set of tools, materials, and activities intended to support children in creating physical computer input devices for computer programs they write. This project introduces a new approach to learning-through-design by providing opportunities for children to engage in both physical and computational design concurrently. This thesis describes the design of Hook-ups tools and materials, including the development of Scratch Patches - a new puzzle-piece-like set of technological building blocks used to build computer input devices. Also presented are classifications of the types of Hook-ups developed by youth, an analysis of what and how youth learned through Hook-ups design activities, and a roadmap for future work in the area of interaction design for children.<br>by Amon Daran Millner.<br>S.M.
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Follmer, Sean (Sean Weston). "Dynamic physical affordances for shape-changing and deformable user interfaces." Thesis, Massachusetts Institute of Technology, 2015. http://hdl.handle.net/1721.1/97973.

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Thesis: Ph. D., Massachusetts Institute of Technology, School of Architecture and Planning, Program in Media Arts and Sciences, 2015.<br>Cataloged from PDF version of thesis.<br>Includes bibliographical references (pages 207-222).<br>The world is filled with tools and devices designed to fit specific needs and goals, and their physical form plays an important role in helping users understand their use. These physical affordances provide products and interfaces with many advantages: they contribute to good ergonomics, allow users to attend to other tasks visually, and take advantage of embodied and distributed cognition by allowing users to offload mental computation spatially. However, devices today include more and more functionality, with increasingly fewer physical affordances, losing many of the advantages in expressivity and dexterity that our hands can provide. My research examines how we can apply shape-changing and deformable interfaces to address the lack of physical affordances in today's interactive products and enable richer physical interaction with general purpose computing interfaces. In this thesis, I introduce tangible interfaces that use their form to adapt to the functions and ways users want to interact with them. I explore two solutions: 1) creating Dynamic Physical Affordances through shape change and 2) user Improvised Physical Affordances through direct deformation and through appropriation of existing objects. Dynamic Physical Affordances can provide buttons and sliders on demand as an application changes, or even allow users to directly manipulate 3D models or data sets through physical handles which appear out of the data. Improvised Physical Affordances can allow users to squeeze, stretch, and deform input devices to fit their needs, creating the perfect game controller, or shaping a mobile phone around their wrist to form a bracelet. Novel technical solutions are needed to enable these new interaction techniques; this thesis describes techniques both for actuation and robust sensing for shape-changing and deformable interfaces. Finally, systems that utilize Dynamic Physical Affordances and Improvised Physical Affordances are evaluated to understand patterns of use and performance. My belief is that shape-changing UI will become increasingly available in the future, and this work begins to create a vocabulary and design space for more general-purpose interaction for shape-changing UI.<br>by Sean Weston Follmer.<br>Ph. D.
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Sanchez, Erik De Jesus. "Modeling of the Surface Plasmon Resonance (SPR) Effect for a Metal-Semiconductor (M-S) Junction at Elevated Temperatures." PDXScholar, 1993. https://pdxscholar.library.pdx.edu/open_access_etds/4624.

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The effect of temperature increase on the optical excitation of Surface Plasmon Resonance (SPR) at an Ag-Si metal-semiconductor (M-S) junction at a wavelength of 1 . 1 52 pm is investigated theoretically using computer modeling in Fortran. In order to accurately quantify the SPR, the temperature dependent optical constants for Ag and Si are obtained theoretically or semiempirically , using a Drude model for Ag and previous experimentally determined equations for Si (the behavior of the optical constants for crystalline Si and doped Si are found to have very little deviation between each other for our case). An improvement in the theoretical derivation for the optical constants of Ag is obtained, maintaining self-consistency. The optical constants are utilized to quantify the reflectance of an incident wave on an M-S junction, using Fresnel equations for a four layer system. The reflectivity of the M-S junction is indicative of the surface plasmon generation. There exists much industrial interest in increasing the amount of photocurrent generation in semiconductors for a given number of incident photons. This increase in photocurrent is often referred to as enhancing the quantum efficiency (Q). It has been previously shown by many groups that there can be an appreciable enhancement of Q due to the optical excitation of surface plasmons on a Schottky barrier junction (M-S junction), although all these previous studies were done at room temperature. Hence, the studies of temperature effect of SPR at the M-S junction could lead to interesting effects for the Q as well. In this thesis, we have studied qualitatively the effect of temperature increase on the optical excitation of SPR at an Ag-Si junction. From these results we have attempted to draw inference to the possibility of the enhancement of Q at elevated temperatures for such a diode junction.
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Wang, Chuandao Charlie, and 王传道. "Organic solar cells towards high efficiency: plasmonic effects and interface engineering." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2012. http://hub.hku.hk/bib/B48329654.

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Organic solar cells (OSCs) are promising candidates for solar light harvesting due to their standout advantages both in material properties and manufacturing process. During past decades, remarkable progress has been achieved. Efficiency for single-junction cells over 9% and tandem cells over 10% has been reported. For high performance OSCs towards commercialization, sufficient light absorption and high quality buffer layers are still two challenges, which are addressed in this thesis by investigating the plasmonic effects on OSCs and interface engineering. Here, the mechanisms of plasmonic effects on OSC are explored by incorporating metallic Au nanoparticles (NPs) in individual anode buffer layer and active layer, respectively, and finally in both layers simultaneously. When Au NPs are incorporated into the buffer layer, surface plasmonic resonance (SPR) induced absorption enhancement due to incorporation of Au NPs is evidenced theoretically and experimentally to be only minor contributor to the performance improvement. The increased interfacial contact area between the buffer layer and active layer, together with the reduced resistance of the buffer layer due to the embedded Au NPs, are revealed to benefit hole collection and thus are main contributors to the performance improvement. When Au NPs are embedded in the active layer, Au NPs induced SPR indeed contributes to enhanced light absorption. However, when large amount of Au NPs are incorporated, the negative effects of NPs on the electrical properties of OSCs can counter-diminish the optical enhancement from SPR, which limits the overall performance improvement. When Au NPs are embedded into both layers, both advantages of incorporating NPs in individual layers can be utilized together to achieve more pronounced improvement in photovoltaic performance; as a result, accumulated enhancements in device performance can be achieved. The results herein are applicable to other metallic NPs such as Ag NPs, Pt NPs, etc. The study herein has clarified the degree of contribution of SPR effects on OSCs and revealed the mechanisms behind. It has also highlighted the importance of considering both optical and electrical effects when employing metallic NPs as strategies to enhance the photovoltaic performance of OSCs. Consequently, the study contributes both physical understanding and technological development of applying metallic NPs on OSCs. Regarding interface engineering, we first propose a simple method to modify the substrate work function for efficient hole collection by using an ultra-thin ultraviolet-ozone treated Au. The method can be used in other situations such as modifying the work function of multilayer graphene as transparent electrode. Then we propose a general method to synthesize solution-processed transition metal oxides (TMOs). Besides high material quality, desirable electrical properties, and good stability, our method stands out particular in that the synthesized TMOs can be dispersed in water-free solvents and the TMO films require only low temperature treatment, which is very compatible with the organic electronics. Our method can also be used to synthesize other TMOs other than the demonstrated molybdenum oxide and vanadium oxide. The proposed method herein is applicable in semiconductor industry.<br>published_or_final_version<br>Electrical and Electronic Engineering<br>Doctoral<br>Doctor of Philosophy
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Maeda, Nobuo. "Phase transitions of long-chain n-alkanes at interfaces." View thesis entry in Australian Digital Theses Program, 2001. http://thesis.anu.edu.au/public/adt-ANU20011203.151921/index.html.

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Failla, Roberto. "Random growth of interfaces: Statistical analysis of single columns and detection of critical events." Thesis, University of North Texas, 2004. https://digital.library.unt.edu/ark:/67531/metadc4550/.

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The dynamics of growth and formation of surfaces and interfaces is becoming very important for the understanding of the origin and the behavior of a wide range of natural and industrial dynamical processes. The first part of the paper is focused on the interesting field of the random growth of surfaces and interfaces, which finds application in physics, geology, biology, economics, and engineering among others. In this part it is studied the random growth of surfaces from within the perspective of a single column, namely, the fluctuation of the column height around the mean value, which is depicted as being subordinated to a standard fluctuation-dissipation process with friction g. It is argued that the main properties of Kardar-Parisi-Zhang theory are derived by identifying the distribution of return times to y(0) = 0, which is a truncated inverse power law, with the distribution of subordination times. The agreement of the theoretical prediction with the numerical treatment of the model of ballistic deposition is remarkably good, in spite of the finite size effects affecting this model. The second part of the paper deals with the efficiency of the diffusion entropy analysis (DEA) when applied to the studies of stromatolites. In this case it is shown that this tool can be confidently used for the detection of complexity. The connection between the two studies is established by the use of the DEA itself. In fact, in both analyses, that is, the random growth of interfaces and the study of stromatolites, the method of diffusion entropy is able to detect the real scaling of the system, namely, the scaling of the process is determined by genuinely random events, also called critical events.
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Livres sur le sujet "Interfaces (Physical sciences)"

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National Research Council (U.S.). Panel on Scientific Interfaces and Technological Applications. Scientific interfaces and technological applications. Washington, D.C: National Academy Press, 1986.

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Braccini, Muriel, and Michel Dupeux. Mechanics of solid interfaces. London: ISTE, 2012.

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Martin, Malmsten, ed. Biopolymers at interfaces: Edited by Martin Malmsten. New York: M. Dekker, 1998.

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Howe, James M. Interfaces in materials: Atomic structure, thermodynamics and kinetics of solid-vapor, solid-liquid and solid-solid interfaces. New York: Wiley, 1997.

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J, Feast W., Munro H. S, and Richards R. W. 1948-, eds. Polymer surfaces and interfaces II. Chichester: Wiley & Sons, 1993.

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P, DeMejo Lawrence, Rimai Don, and Sharpe Louis H, eds. Fundamentals of adhesion and interfaces. Amsterdam: Gordon & Breach, 1999.

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Colinet, P. Pattern formation at interfaces. Wien: Springer, 2010.

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D, Möbius, and Miller Reinhard, eds. Novel methods to study interfacial layers. Amsterdam: Elsevier, 2001.

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Bakrim, Hassan. Progress in surface and interface research, 2006. Trivandrum, Kerala, India: Transworld Research Network, 2006.

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Park, Soojin. Interface science and composites. Amsterdam: Elsevier, 2011.

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Chapitres de livres sur le sujet "Interfaces (Physical sciences)"

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Shukla, Prabodh. "Domains and Interfaces in Random Fields." In Texts and Readings in Physical Sciences, 141–58. Gurgaon: Hindustan Book Agency, 2012. http://dx.doi.org/10.1007/978-93-86279-51-4_5.

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Saichev, Alexander I., and Wojbor A. Woyczyński. "Nonlinear Waves and Growing Interfaces: 1-D Burgers–KPZ Models." In Distributions in the Physical and Engineering Sciences, Volume 2, 229–79. New York, NY: Springer New York, 2013. http://dx.doi.org/10.1007/978-0-8176-4652-3_6.

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Weik, Martin H. "physical interface." In Computer Science and Communications Dictionary, 1274. Boston, MA: Springer US, 2000. http://dx.doi.org/10.1007/1-4020-0613-6_14038.

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Fernando Concha, A., and Osvaldo A. Bascur. "Physical Chemistry of Interfaces." In The Engineering Science of Mineral Processing, 209–24. Boca Raton: CRC Press, 2024. http://dx.doi.org/10.1201/9781032614212-5.

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Weik, Martin H. "Fiber Channel Physical Interface." In Computer Science and Communications Dictionary, 581. Boston, MA: Springer US, 2000. http://dx.doi.org/10.1007/1-4020-0613-6_6894.

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Takiue, Takanori, Yoshimune Nonomura, and Syuji Fujii. "The Principle and Physical Chemistry of Soft Interface." In Molecular Soft-Interface Science, 3–25. Tokyo: Springer Japan, 2019. http://dx.doi.org/10.1007/978-4-431-56877-3_1.

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Kobayashi, Toshiki, Motoki Asano, Rikizo Ikuta, Sahin K. Ozdemir, and Takashi Yamamoto. "Photonic Quantum Interfaces Among Different Physical Systems." In Quantum Science and Technology, 197–218. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-6679-7_9.

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Jofré, Nicolás, Graciela Rodríguez, Yoselie Alvarado, Jacqueline Fernández, and Roberto Guerrero. "Natural User Interfaces: A Physical Activity Trainer." In Communications in Computer and Information Science, 122–31. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-75214-3_12.

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Tucker, Lewis R., and Michael V. Laric. "Dealing with the Marketing/Physical Distribution Interface." In Developments in Marketing Science: Proceedings of the Academy of Marketing Science, 389–94. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-16934-7_109.

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Tang, Bing, Zhigeng Pan, ZuoYan Lin, and Le Zheng. "PHI: Physics Application Programming Interface." In Lecture Notes in Computer Science, 390–93. Berlin, Heidelberg: Springer Berlin Heidelberg, 2006. http://dx.doi.org/10.1007/11872320_57.

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Actes de conférences sur le sujet "Interfaces (Physical sciences)"

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"Preface: Emerging Interfaces of Physical Sciences and Technology (EIPT-2019)." In EMERGING INTERFACES OF PHYSICAL SCIENCES AND TECHNOLOGY 2019: EIPT2019. AIP Publishing, 2020. http://dx.doi.org/10.1063/12.0000220.

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"Committees: Emerging Interfaces of Physical Sciences and Technology (EIPT-2019)." In EMERGING INTERFACES OF PHYSICAL SCIENCES AND TECHNOLOGY 2019: EIPT2019. AIP Publishing, 2020. http://dx.doi.org/10.1063/12.0000473.

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Aguirre, Roberto, Jesus Ruiz-Plancarte, and Haris Catrakis. "Physical Thickness of Turbulent Fluid Interfaces: Structure, Variability, and Applications to Aerooptics." In 41st Aerospace Sciences Meeting and Exhibit. Reston, Virigina: American Institute of Aeronautics and Astronautics, 2003. http://dx.doi.org/10.2514/6.2003-642.

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Attwood, D., Y. Vladimirsky, D. Kern, W. Meyer-Ilse, J. Kirz, S. Rothman, H. Rarback, et al. "X-Ray Microscopy for the Life and Physical Sciences." In Short Wavelength Coherent Radiation: Generation and Applications. Washington, D.C.: Optica Publishing Group, 1988. http://dx.doi.org/10.1364/swcr.1988.mh274.

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Advances in x-ray microscopy coupled with the development of bright, partially coherent radiation at x-ray wavelengths, herald a new period in which scientists in diverse disciplines will use x-ray imaging and probing techniques to see ever smaller structures, write ever smaller patterns, and study physical, chemical and biological systems, not only with an elemental sensitivity, but in many cases with a sensitivity to details of bonding. The combination of x-ray microscopy and various emission spectroscopies will permit the study of surfaces, thin films and material interfaces, as well as biological samples in their natural, unaltered and hydrated state1,2.
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Behere, Supriya, Bhagawan Deshmukh, Sunil Patil, and S. H. Behere. "Rotational temperature of the CaH molecule from the umbral spectrum of sunspots." In EMERGING INTERFACES OF PHYSICAL SCIENCES AND TECHNOLOGY 2019: EIPT2019. AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0005460.

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Moghe, Shweta, A. D. Acharya, and S. B. Shrivastava. "Study of metal oxide doped polymeric thin films." In EMERGING INTERFACES OF PHYSICAL SCIENCES AND TECHNOLOGY 2019: EIPT2019. AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0006263.

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Tambe, A., S. Kumbhaj, D. M. Phase, P. K. Sen, and P. Sen. "Fiber optic localized surface plasmon resonance sensor for detection of chromium ion impurity in water." In EMERGING INTERFACES OF PHYSICAL SCIENCES AND TECHNOLOGY 2019: EIPT2019. AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0000469.

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Dubey, Priya, and S. Ghosh. "Dispersion characteristics of space charge wave in semiconductor plasma comprising of nanoparticles." In EMERGING INTERFACES OF PHYSICAL SCIENCES AND TECHNOLOGY 2019: EIPT2019. AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0000470.

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Joshi, H., G. Ahmed, R. K. Pensia, and A. K. Patidar. "Electron plasma frequency on Jeans instability in quantum plasma." In EMERGING INTERFACES OF PHYSICAL SCIENCES AND TECHNOLOGY 2019: EIPT2019. AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0000471.

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Malviya, P. S., and N. Yadav. "Colloidal effects on modulational instability in semiconductor plasma having strain dependent dielectric constant." In EMERGING INTERFACES OF PHYSICAL SCIENCES AND TECHNOLOGY 2019: EIPT2019. AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0000472.

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Rapports d'organisations sur le sujet "Interfaces (Physical sciences)"

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Perdigão, Rui A. P. New Horizons of Predictability in Complex Dynamical Systems: From Fundamental Physics to Climate and Society. Meteoceanics, October 2021. http://dx.doi.org/10.46337/211021.

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Discerning the dynamics of complex systems in a mathematically rigorous and physically consistent manner is as fascinating as intimidating of a challenge, stirring deeply and intrinsically with the most fundamental Physics, while at the same time percolating through the deepest meanders of quotidian life. The socio-natural coevolution in climate dynamics is an example of that, exhibiting a striking articulation between governing principles and free will, in a stochastic-dynamic resonance that goes way beyond a reductionist dichotomy between cosmos and chaos. Subjacent to the conceptual and operational interdisciplinarity of that challenge, lies the simple formal elegance of a lingua franca for communication with Nature. This emerges from the innermost mathematical core of the Physics of Coevolutionary Complex Systems, articulating the wealth of insights and flavours from frontier natural, social and technical sciences in a coherent, integrated manner. Communicating thus with Nature, we equip ourselves with formal tools to better appreciate and discern complexity, by deciphering a synergistic codex underlying its emergence and dynamics. Thereby opening new pathways to see the “invisible” and predict the “unpredictable” – including relative to emergent non-recurrent phenomena such as irreversible transformations and extreme geophysical events in a changing climate. Frontier advances will be shared pertaining a dynamic that translates not only the formal, aesthetical and functional beauty of the Physics of Coevolutionary Complex Systems, but also enables and capacitates the analysis, modelling and decision support in crucial matters for the environment and society. By taking our emerging Physics in an optic of operational empowerment, some of our pioneering advances will be addressed such as the intelligence system Earth System Dynamic Intelligence and the Meteoceanics QITES Constellation, at the interface between frontier non-linear dynamics and emerging quantum technologies, to take the pulse of our planet, including in the detection and early warning of extreme geophysical events from Space.
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