Relevant bibliographies by topics / Percolative phenomena

Academic literature on the topic 'Percolative phenomena'

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Published: 9 March 2023
Last updated: 10 March 2023

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Journal articles on the topic "Percolative phenomena"

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Aliotta, F., and B. Fazio. "Percolative phenomena in branched reverse micelles." Physica A: Statistical Mechanics and its Applications 304, no. 1-2 (February 2002): 111–18. http://dx.doi.org/10.1016/s0378-4371(01)00525-8.

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Pennetta, C., L. Reggiani, Gy Trefán, F. Fantini, I. DeMunari, and A. Scorzoni. "A percolative simulation of electromigration phenomena." Microelectronic Engineering 55, no. 1-4 (March 2001): 349–53. http://dx.doi.org/10.1016/s0167-9317(00)00467-6.

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Forero-Sandoval, I. Y., A. P. Franco-Bacca, F. Cervantes-Álvarez, C. L. Gómez-Heredia, J. A. Ramírez-Rincón, J. Ordonez-Miranda, and J. J. Alvarado-Gil. "Electrical and thermal percolation in two-phase materials: A perspective." Journal of Applied Physics 131, no. 23 (June 21, 2022): 230901. http://dx.doi.org/10.1063/5.0091291.

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Electrical percolation in two-phase materials involves a very singular behavior, manifested as a huge change in the electrical conductivity, for a given volume or mass fraction of the phase with higher conductivity. In contrast, in the case of heat transfer, in two-phase composite systems, analogous percolative phenomena are far more elusive and have been rather difficult to observe in various physical systems. In this Perspective, we present a critical analysis of experimental results and the application of theoretical models aimed to study the effects of percolation phenomena on the thermal and electrical properties of two-phase materials. Our attention will be focused on composites made of high conductivity particles in a polymeric matrix. The effect of several factors, such as the geometrical and physical characteristics of fillers and their connectivity with the matrix, the proportion between the conductivity of filler and the matrix, as well as the crucial role of interfacial thermal resistance, is considered. In particular, the differences between the thermal and electrical thresholds and the physical and geometrical conditions that should be fulfilled to observe thermal percolation are discussed. Future trends, to be followed in the development of new materials, in order to enhance the thermal conductivity as well as in making the thermal percolative effects notable, based on including additional phases and 2D fillers, are also discussed.
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Cid, A., D. Gómez-Díaz, J. C. Mejuto, and J. M. Navaza. "Viscosity and Percolative Phenomena in AOT based Microemulsions." Tenside Surfactants Detergents 48, no. 2 (March 2011): 165–69. http://dx.doi.org/10.3139/113.110119.

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Aliotta, F. "Percolative phenomena and electrorheological structures in reverse micelles." Journal of Physics: Condensed Matter 14, no. 9 (February 20, 2002): 2453–60. http://dx.doi.org/10.1088/0953-8984/14/9/332.

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Guo, Kailun, Chenglong Wang, Dalin Zhang, Wenxi Tian, Guanghui Su, and Suizheng Qiu. "Investigations of near-wall bubble behavior in wire heaters pool boiling." Thermal Science, no. 00 (2020): 333. http://dx.doi.org/10.2298/tsci200408333g.

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The current work establishes a pool boiling CHF prediction method based on percolation theory. For the first time, we observe the experimental bubble footprint?s power-law distributions with almost the same exponent in wire heaters? water pool boiling crisis, which is borne out strongly that boiling crisis is a typical continuum percolative scale-free behavior, and its characteristics seems not to be influenced by the critical heat flux value. The proposed one-dimensional Monte Carlo(MC) method successfully simulates the phase transition of interactive near-wall bubbles. This research enriches and extends applications of continuum percolation theory in boiling phenomena, and could be an instruction for the followed critical heat flux enhancement studies.
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Aliotta, F., C. Vasi, R. E. Lechner, and B. Ruffle. "Evidence of percolative phenomena in a lecithin-based gel." Physica B: Condensed Matter 276-278 (March 2000): 347–48. http://dx.doi.org/10.1016/s0921-4526(99)01552-5.

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Xia, Xiaodong, and George J. Weng. "Dual percolations of electrical conductivity and electromagnetic interference shielding in progressively agglomerated CNT/polymer nanocomposites." Mathematics and Mechanics of Solids 26, no. 8 (June 14, 2021): 1120–37. http://dx.doi.org/10.1177/10812865211021460.

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Recent experiments have revealed two distinct percolation phenomena in carbon nanotube (CNT)/polymer nanocomposites: one is associated with the electrical conductivity and the other is with the electromagnetic interference (EMI) shielding. At present, however, no theories seem to exist that can simultaneously predict their percolation thresholds and the associated conductivity and EMI curves. In this work, we present an effective-medium theory with electrical and magnetic interface effects to calculate the overall conductivity of a generally agglomerated nanocomposite and invoke a solution to Maxwell’s equations to calculate the EMI shielding effectiveness. In this process, two complex quantities, the complex electrical conductivity and complex magnetic permeability, are adopted as the homogenization parameters, and a two-scale model with CNT-rich and CNT-poor regions is utilized to depict the progressive formation of CNT agglomeration. We demonstrated that there is indeed a clear existence of two separate percolative behaviors and showed that, consistent with the experimental data of poly-L-lactic acid (PLLA)/multi-walled carbon nanotube (MWCNT) nanocomposites, the electrical percolation threshold is lower than the EMI shielding percolation threshold. The predicted conductivity and EMI shielding curves are also in close agreement with experimental data. We further disclosed that the percolative behavior of EMI shielding in the overall CNT/polymer nanocomposite can be illustrated by the establishment of connective filler networks in the CNT-poor region. It is believed that the present research can provide directions for the design of CNT/polymer nanocomposites in the EMI shielding components.
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YAGIL, YOAD, GUY DEUTSCHER, and DAVID J. BERGMAN. "THE ROLE OF MICROGEOMETRY IN THE ELECTRICAL BREAKDOWN OF METAL-INSULATOR MIXTURES." International Journal of Modern Physics B 07, no. 19 (August 30, 1993): 3353–74. http://dx.doi.org/10.1142/s0217979293003267.

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The breakdown phenomena of percolative metal-insulator composites and their extreme sensitivity to fine details of the microgeometry are discussed, for three different cases: the critical current of superconductor-insulator mixtures (or superconductor-normal metal); the dielectric breakdown of metal-insulator composites below the percolation threshold (insulating regime); and the electrical breakdown above the metal-insulator transition (metallic regime). Two experimental techniques for characterizing the microgeometry are described: (a) 1/f noise measurements, which provide the fourth moment of the current distribution; (b) the harmonic generation method, where the weakly nonlinear electrical response due to local Joule heating provides information on the fourth (and higher) moment of the current distribution.
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Dasilva-Carbalhal, J., L. García-Río, D. Gómez-Díaz, J. C. Mejuto, and M. Pérez-Lorenzo. "Influence of glymes upon percolative phenomena in AOT-based microemulsions." Journal of Colloid and Interface Science 292, no. 2 (December 2005): 591–94. http://dx.doi.org/10.1016/j.jcis.2005.06.003.

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Dissertations / Theses on the topic "Percolative phenomena"

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CRIPPA, MAURIZIO. "Hybrid and nanocomposite concepts: a driving force for novel materials." Doctoral thesis, Università degli Studi di Milano-Bicocca, 2013. http://hdl.handle.net/10281/42253.

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The general concepts of hybrid and nanocomposite were used not only to classify but also to drive the synthesis optimizing the materials for the different applications. The common denominator of each material was the titanium dioxide as photoreactive material, chapters 3 and 4, and dielectric material in chapter 5. Because both the morphology and the crystal phase of the titanium dioxide play a crucial role on the material performances the used TiO2 was always synthesized ex situ by hydrothermal synthesis allowing to control the morphological characteristics. In the chapter 3 and 4 anatase phase was used for its photocatalytic ability in presence of oxygen and water while in the chapter 5 the rutile phase was used because its highest dielectric constant compare anatase. In chapter 3 a polyacrilate composite material prepared by mechanical mixing of nanocrystalline titania with acrylate oligomers shows that, without titania surface functionalisation, the oxide forms micrometric aggregates reducing the exposed surface of the TiO2. Despite the filler aggregation the material preserves its photocatalytic properties. As drawback of the photocatalytic activity in phenol photomineralisation (use to simulate pollutants in water) some photooxidative degradation phenomena involve the organic matrix. Hence the necessity to have a stable material was the driving force to create a new material containing titania as photoactive material while embedded into an inorganic matrix. In the chapter 4 this porous and UV transparent inorganic-inorganic nanocomposite material is described. In order to obtain the desired porosity of the final material the silica sol-gel solution was mixed with PEG obtaining a class I hybrid material. During the silica formation PEG segregates in warm-like polymeric phase that, once the material is calcinated, leaves the voids conferring the desired macroporosity to the material. The photoactive oxide, previously functionalized on the surface with organic molecules, migrates in the polymeric phase during silica precursors hydrolysis and condensation. After calcination the titania nanocrystallites decorate the wall of the channels leaved by the organic species remotion. The molecules functionalizing the catalyst surface induce the TiO2 migration into the PEG phase because of their more affinity with polymer instead with silica. The exposed titania is then able to freely react with pollutants while the silica matrix provides the UV transparency and macroporosity for the photocatalytic reactions. The abatement efficiency of the material is comparable with slurry TiO2. The material is not affected by the photocatalyst leaching demonstrating that it is suitable for an industrial application. The nanocomposite material was tested for NOx degradation too using P25 commercial titania instead of home made one demonstrating the generality of the preparation method. The abatement efficiency of the NOx was comparable with the DENOX technology currently used for industrial applications. In chapter 5 the same reaction technique used to functionalize the nanoparticles in the chapter 4 was used to functionalize rutile titania nanoparticles with a RAFT reagent. After the styrene “polymerization from” reaction polystyrene chains were obtained. The brush like conformation of the chains justifies the high polymer surface density. The functionalized nanoparticles (class II material) are mixed in different concentrations with commercial polystyrene. The different concentration materials present good dispersion because of the high compatibilization properties of the surface functionalisation. At high concentrations the material shows a percolative behavior ascribed to the formation of chestnut like aggregates which increase the relative dielectric constant. Despite the charges percolation trough the material the polymeric surface layer acts as an insulating layer which contributes to mitigate the charge mobility and consequently the conductivity of the material. The low conductivity of the material allows to obtain low tanδ values. The low tanδ values in a large range of frequencies allows to candidate the material for radio frequency (RF) applications where very low dissipation factor is desired to avoid signal losses. In conclusion the present work, despite it covers three different materials, demonstrates how it is possible to create and optimize a material modifying the surface of the nanoparticles in order to confer them peculiar properties which drive the final material morphology. The final material morphology is then able to combine the properties both of the active material and of the matrix giving a new optimized material for a specific application.
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HURUGUEN, JEAN-PIERRE. "Influence d'une proteine sur les phenomenes de percolation en micro-emulsions eau dans l'huile." Paris 6, 1991. http://www.theses.fr/1991PA066163.

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Les microemulsions eau dans huile sont des dispersions de gouttelettes d'eau dans un milieu apolaire. Ces microphases sont capables de s'agreger. La taille de ces agregats augmente lorsque la temperature et la fraction volumique augmentent jusqu'a ce qu'un agregat infini existe: le seuil de percolation est atteint. En presence de proteines telles que le cytochrome c, nous avons observe un deplacement du seuil de percolation vers des valeurs plus faibles en temperature et en fraction volumique. Les experiences de diffusion de rayonnement x montrent que la structure microscopique de ces agregats est cylindrique. Cette structure est tres etendue, et les courbes de difusion ont pu etre interpretees par l'intermediaire de la theorie des solutions de polymeres en regime semi dilue. Nous montrons que ce processus de percolation peut etre observe par une etude de reactivite
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Dall'Asta, Luca. "Phenomenes Dynamiques sur des Reseaux Complexes." Phd thesis, Université Paris Sud - Paris XI, 2006. http://tel.archives-ouvertes.fr/tel-00093102.

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Le travail presente dans cette these porte sur differents aspects des processus dynamiques sur reseaux.
Nous commencerons par une introduction a la science des reseaux complexes.
Le premier sujet aborde dans cette these est la
caracterisation theorique des processus d'exploration des reseaux complexes, comme ce utilisee dans les processus
reels de cartographie d'Internet et appellee ``traceroute''.
Nous proposerons un modele theorique d'exploration par traceroute, et sa analyse en champ moyen, qui permet une
meilleure comprehension de la relation entre les proprietes topologiques du reseau original et celles du reseau echantillonne'.
Cette etude illustre la possibilite d'utiliser des processus
dynamiques pour characteriser certaines proprietes inconnues de reseaux reels.
Une deuxieme partie de la these est consacree' a l'etude des reseaux ponderes et de leurs relations avec les proprietes fonctionelles des reseaux.
Nous examinerons le role joue par les poids en determinant la robustesse fonctionelle du systeme. Nous considererons notamment le cas du reseau aerien.
Bien d'autres resultats peuvent etre generalises aux reseaux ponderes, comme
l'etude des processus de propagation, dont nous proposerons une analyse tres generale sous la forme d'une theorie de percolation.
La derniere partie de la these est consacree a l'etude du Naming Game, un modele de communication entre individus, qui a des applications interessantes dans le domaine de l'intelligence
artificielle et de la robotique.
Nous montrerons que les phenomenes dynamiques decrits par le modele dependent
beaucoup de la topologie des interactions.
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Grijalva, Sebastian. "Boundary effects in quantum spin chains and Finite Size Effects in the Toroidal Correlated Percolation model." Thesis, université Paris-Saclay, 2020. http://www.theses.fr/2020UPASP093.

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Cette thèse est divisée en deux parties : la première présente un modèle statistique en deux dimensions de percolation corrélée sur un réseau toroïdal. Nous présentons un protocole pour construire des surfaces corrélées à longue portée sur la base de surfaces gaussiennes fractionnaires, puis nous relions les ensembles de niveaux à une famille de modèles de percolation corrélés. Les clusters émergents sont ensuite étudiés numériquement, et nous testons leur symétrie conforme en vérifiant que les corrections de taille finie de connectivité à deux points suivent les prédictions de la théorie des champs conformes. Nous commentons également le comportement des fonctions à trois points et fournissons un code numérique pour reproduire les résultats. La deuxième partie de la thèse étudie la chaîne quantique XXZ intégrable de spin-1/2 avec des conditions aux bords ouvertes, pour un nombre pair et impair de sites. Dans régime antiferromagnétique, nous utilisons l'Ansatz de Bethe Algébrique pour déterminer les configurations possibles en termes des champs aux bords. On retrouve les conditions d'existence d'états fondamentaux quasi dégénérés séparés par un gap au reste du spectre. Nous calculons l'aimantation au bord à température nulle et constatons qu'elle dépend du champ sur le bord opposé même dans la limite de chaîne semi-infinie. Nous calculons enfin la fonction d'autocorrélation temporelle au bord et montrons que dans le cas de taille paire, elle est finie à la limite de temps long à cause de la quasi-dégénérescence
This thesis is divided in two parts: The first one presents a 2D statistical model of correlated percolation on a toroidal lattice. We present a protocol to construct long-range correlated surfaces based on fractional Gaussian surfaces and then we relate the level sets to a family of correlated percolation models. The emerging clusters are then numerically studied, and we test their conformal symmetry by verifying that their planar-limit finite-size corrections follow the predictions of Conformal Field Theory. We comment also the behavior of three-point functions and provide a numerical code to reproduce the results.The second part of the thesis studies the quantum integrable XXZ spin-1/2 chain with open boundary conditions for even and odd number of sites. We concentrate in the anti-ferromagnetic regime and use the Algebraic Bethe Ansatz to determine the configurations that arise in terms of the boundary fields. We find the conditions of existence of quasi-degenerate ground states separated by a gap to the rest of the spectrum. We calculate the boundary magnetization at zero temperature and find that it depends on the field at the opposite edge even in the semi-infinite chain limit. We finally calculate the time autocorrelation function at the boundary and show that in the even-size case it is finite for the long-time limit as a result of the quasi-degeneracy
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Moreira, Darlan Ara?jo. "Percola??o convencional, percola??o correlacionada e percola??o por invas?o num suporte multifractal." Universidade Federal do Rio Grande do Norte, 2005. http://repositorio.ufrn.br:8080/jspui/handle/123456789/16539.

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Made available in DSpace on 2014-12-17T15:14:47Z (GMT). No. of bitstreams: 1 DarlanAM.pdf: 1159480 bytes, checksum: d201bf0e3558be6b14b14c9a86a46f20 (MD5) Previous issue date: 2005-03-10
Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico
In this work we have studied the problem of percolation in a multifractal geometric support, in its different versions, and we have analysed the conection between this problem and the standard percolation and also the connection with the critical phenomena formalism. The projection of the multifractal structure into the subjacent regular lattice allows to map the problem of random percolation in the multifractal lattice into the problem of correlated percolation in the regular lattice. Also we have investigated the critical behavior of the invasion percolation model in this type of environment. We have discussed get the finite size effects
Nesta disserta??o estudamos o problema da percola??o num suporte geom?trico multifractal, em suas diferentes vers?es, e analisamos a conex?o deste problema com a percola??o convencional e com o formalismo dos fen?menos cr?ticos. A proje??o da estrutura multifractal numa rede regular subjacente permite mapear o problema da percola??o aleat?ria no multifractal num problema de percola??o correlacionada numa rede regular. Tamb?m investigamos o comportamento cr?tico do modelo da percola??o por invas?o neste tipo de ambiente e discutimos a quest?o do efeito de tamanho finito
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GANDOLFI, ALBERTO. "Clustering and uniqueness in mathematical models of percolation phenomena." Doctoral thesis, 1989. http://hdl.handle.net/2158/655676.

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We desctibe the phenomena of clustering and uniqueness of the infinite cluster in the mathematical theory of percolation. The thesis contains reprints of published results and an original contribution on large deviations of the cluster density.
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Rezaee, Leila. "Bimodal Gate Oxide Breakdown in Sub-100 nm CMOS Technology." Thesis, 2008. http://hdl.handle.net/10012/4155.

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In the last three decades, the electronic industry has registered a tremendous progress. The continuous and aggressive downsizing of the transistor feature sizes (CMOS scaling) has been the main driver of the astonishing growth and advancement of microelectronic industry. Currently, the CMOS scaling is almost reaching its limits. The gate oxide is now only a few atomic layers thick, and this extremely thin oxide causes a huge leakage current through the oxide. Therefore, a further reduction of the gate oxide thickness is extremely difficult and new materials with higher dielectric constant are being explored. However, the phenomena of oxide breakdown and reliability are still serious issues in these thin oxides. Oxide breakdown exhibits a soft breakdown behavior at low voltages, and this is posing as one of the most crucial reliability issues for scaling of the ultra-thin oxides. In addition, the stress-induced leakage current (SILC) due to oxide has emerged as a scaling problem for the non-volatile memory technologies. In this dissertation, a percolation modeling approach is introduced to study and understand the dramatic changes in the conductivity of a disordered medium. Two different simulation methods of percolative conduction, the site and bond percolation, are studied here. These are used in simulating the post-breakdown conduction inside the oxide. Adopting a Monte-Carlo method, oxide breakdown is modeled using a 2-D percolation theory. The breakdown statistics and post-breakdown characteristics of the oxide are computed using this model. In this work, the effects of different physical parameters, such as dimension and the applied stress are studied. The simulation results show that a thinning of oxide layer and increasing the oxide area result in softening of breakdown. It is observed that the breakdown statistics appear to follow Weibull characteristics. As revealed by simulations, the Weibull slope changes linearly with oxide thickness, while not having a significant change when the area is varied and when the amount of the applied stress is varied. It is shown that the simulation results are well correlated with the experimental data reported in the literature. In this thesis, studying the conduction through the oxide using percolation model, it was discovered that a critical or a quasi-critical phenomenon occurs depending on the oxide dimensions. The criticality of the phase-transition results in a hard breakdown while the soft breakdown occurs due to a quasi-critical nature of percolation for ultra-thin oxides. In the later part of the thesis, a quantum percolation model is studied in order to explain and model the stress induced leakage current. It is explained that due to the wave nature of electrons, the SILC can be modeled as a tunneling path through the stressed oxide with the smaller tunneling threshold compared to the virgin oxide. In addition to the percolation model, a Markov chain theory is introduced to simulate the movement of electron as a random walk inside the oxide, and the breakdown is simulated using this random-walk of electron through the accumulated traps inside the oxide. It is shown that the trapping-detrapping of electrons results in an electrical noise in the post-breakdown current having 1/f noise characteristics. Using simulation of a resistor network with Markov theory, the conductance of the oxide is computed. An analytical study of a 2-D site percolation system is conducted using recursive methods and useful closed-form expressions are derived for specialized networks.
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Books on the topic "Percolative phenomena"

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1966-, Ellwood D. (David), and Brazilian School of Probability (14th : 2010 : Armação dos Búzios, Brazil), eds. Probability and statistical physics in two and more dimensions: Clay Mathematics Institute Summer School and XIV Brazilian School of Probability, Búzios, Brazil, July 11-August 7, 2010. Providence, R.I: American Mathematical Society, 2012.

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Complexity And Criticality (Imperial College Press Advanced Physics Texts). Imperial College Press, 2005.

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Fu, Wai-Tat, Mingkun Gao, and Hyo Jin Do. Computational Methods for Socio-Computer Interaction. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198799603.003.0016.

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From the Arab Spring to presidential elections, various forms of online social media, forums, and networking platforms have been playing increasing significant roles in our societies. These emerging socio-computer interactions demand new methods of understanding how various design features of online tools may moderate the percolation of information and gradually shape social opinions, influence social choices, and moderate collective action. This chapter starts with a review of the literature on the different ways technologies impact social phenomena, with a special focus on theories that characterize how social processes are moderated by various design features of user interfaces. It then reviews different theory-based computational methods derived from these theories to study socio-computer interaction at various levels. Specific examples of computational techniques are reviewed to illustrate how they can be useful for influencing social processes for various purposes. The chapter ends with how future technologies should be designed to improve socio-computer interaction.
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Book chapters on the topic "Percolative phenomena"

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Meir, Yigal, Amnon Aharony, and A. Brooks Harris. "Quantum Percolation." In Scaling Phenomena in Disordered Systems, 381–85. Boston, MA: Springer US, 1991. http://dx.doi.org/10.1007/978-1-4757-1402-9_32.

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Feng, Shechao. "Elasticity and Percolation." In Scaling Phenomena in Disordered Systems, 397–98. Boston, MA: Springer US, 1991. http://dx.doi.org/10.1007/978-1-4757-1402-9_35.

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Sornette, Didier. "The Percolation Model." In Critical Phenomena in Natural Sciences, 239–56. Berlin, Heidelberg: Springer Berlin Heidelberg, 2000. http://dx.doi.org/10.1007/978-3-662-04174-1_12.

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Aharony, Amnon, Yuval Gefen, and Yacov Kantor. "Magnetic Properties Near Percolation." In Scaling Phenomena in Disordered Systems, 301–6. Boston, MA: Springer US, 1991. http://dx.doi.org/10.1007/978-1-4757-1402-9_25.

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Chadam, J. "Reaction-Percolation Instability." In Irreversible Phenomena and Dynamical Systems Analysis in Geosciences, 523–32. Dordrecht: Springer Netherlands, 1987. http://dx.doi.org/10.1007/978-94-009-4778-8_26.

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Aharony, Amnon. "Anomalous Diffusion on Percolating Clusters." In Scaling Phenomena in Disordered Systems, 289–300. Boston, MA: Springer US, 1991. http://dx.doi.org/10.1007/978-1-4757-1402-9_24.

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Aeppli, G., H. Guggenheim, and Y. J. Uemura. "Spin Dynamics on Percolating Networks." In Scaling Phenomena in Disordered Systems, 461–64. Boston, MA: Springer US, 1991. http://dx.doi.org/10.1007/978-1-4757-1402-9_40.

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Voss, Richard F., Robert B. Laibowitz, and Eileen I. Alessandrini. "Fractal Geometry of Percolation in Thin Gold Films." In Scaling Phenomena in Disordered Systems, 279–88. Boston, MA: Springer US, 1991. http://dx.doi.org/10.1007/978-1-4757-1402-9_23.

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Ziman, Timothy. "Low Frequency Dynamics of Dilute Antiferromagnets at Percolation." In Scaling Phenomena in Disordered Systems, 361–63. Boston, MA: Springer US, 1991. http://dx.doi.org/10.1007/978-1-4757-1402-9_28.

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Fatès, Nazim. "Directed Percolation Phenomena in Asynchronous Elementary Cellular Automata." In Lecture Notes in Computer Science, 667–75. Berlin, Heidelberg: Springer Berlin Heidelberg, 2006. http://dx.doi.org/10.1007/11861201_77.

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Conference papers on the topic "Percolative phenomena"

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SHARMA, P. A. "PERCOLATIVE SUPERCONDUCTIVITY IN Mg1-xB2." In Physical Phenomena at High Magnetic Fields - IV. WORLD SCIENTIFIC, 2002. http://dx.doi.org/10.1142/9789812777805_0081.

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Lepadatu, A. M., E. Rusnac, and I. Stavarache. "Percolation Phenomena in Silicon - Based Nanocrystalline Systems." In 2007 International Semiconductor Conference (CAS 2007). IEEE, 2007. http://dx.doi.org/10.1109/smicnd.2007.4519789.

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Basu, Prithwish, Saikat Guha, Ananthram Swami, and Don Towsley. "Percolation phenomena in networks under random dynamics." In 2012 Fourth International Conference on Communication Systems and Networks (COMSNETS). IEEE, 2012. http://dx.doi.org/10.1109/comsnets.2012.6151313.

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Daniele, Michael Angelo-Anthony, Alexandra L. Foguth, Parul Rungta, Iurii Bandera, Volodymyr Tsyalkovskyy, and Stephen H. Foulger. "Dynamics of percolation phenomena in colloidal printing inks." In MOEMS-MEMS, edited by Winston V. Schoenfeld, Jian J. Wang, Marko Loncar, and Thomas J. Suleski. SPIE, 2010. http://dx.doi.org/10.1117/12.842647.

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MALLAMACE, F., S. H. CHEN, P. GAMBADAURO, D. LOMBARDO, A. FARAONE, and P. TARTAGLIA. "PERCOLATION AND CRITICAL PHENOMENA OF AN ATTRACTIVE MICELLAR SYSTEM." In International Workshop and Collection of Articles Honoring Professor Antonio Coniglio on the Occasion of his 60th Birthday. WORLD SCIENTIFIC, 2002. http://dx.doi.org/10.1142/9789812778109_0005.

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Pötschke, P. "Purification and Percolation — Unexpected Phenomena in Nanotube Polymer Composites." In ELECTRONIC PROPERTIES OF NOVEL NANOSTRUCTURES: XIX International Winterschool/Euroconference on Electronic Properties of Novel Materials. AIP, 2005. http://dx.doi.org/10.1063/1.2103938.

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Trojer, Mathias, and Eduard R. Oberaigner. "Statistical mechanics approach describing gravity driven migration phenomena in non-percolating porous media." In NUMERICAL ANALYSIS AND APPLIED MATHEMATICS ICNAAM 2012: International Conference of Numerical Analysis and Applied Mathematics. AIP, 2012. http://dx.doi.org/10.1063/1.4756381.

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Okal, Pawel. "Modeling of the percolation phenomenon of disordered two-dimensional systems." In Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments 2019, edited by Ryszard S. Romaniuk and Maciej Linczuk. SPIE, 2019. http://dx.doi.org/10.1117/12.2536741.

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Okal, Paweł, Przemysław Rogalski, and Paweł Żukowski. "Visualization of the percolation phenomenon in two-dimensional arrangement of metallic spherical particles." In Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments 2017, edited by Ryszard S. Romaniuk and Maciej Linczuk. SPIE, 2017. http://dx.doi.org/10.1117/12.2280152.

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Goicochea, Javier V., Thomas Brunschwiler, Jonas Zurcher, Heiko Wolf, Keiji Matsumoto, and Bruno Michel. "Enhanced centrifugal percolating thermal underfills based on neck formation by capillary bridging." In 2012 13th IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm). IEEE, 2012. http://dx.doi.org/10.1109/itherm.2012.6231563.

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Reports on the topic "Percolative phenomena"

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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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Abstract:
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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