Bibliografías temáticas / Mesoscopics

Literatura académica sobre el tema "Mesoscopics"

Autor: Grafiati

Publicado: 4 de junio de 2021

Última modificación: 18 de febrero de 2022

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Artículos de revistas sobre el tema "Mesoscopics"

Galperin, Yu y V. I. Kozub. "Classical Mesoscopics". Europhysics Letters (EPL) 15, n.º 6 (15 de julio de 1991): 631–35. http://dx.doi.org/10.1209/0295-5075/15/6/012.

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GREEN, FREDERICK y MUKUNDA P. DAS. "NOISE AND TRANSPORT IN MESOSCOPICS: PHYSICS BEYOND THE LANDAUER–BÜTTIKER FORMALISM". Fluctuation and Noise Letters 05, n.º 01 (marzo de 2005): C1—C14. http://dx.doi.org/10.1142/s0219477505002355.

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The standard physical model of contemporary mesoscopic noise and transport consists in a phenomenologically based approach, proposed originally by Landauer and since continued and amplified by Büttiker, Imry and others. Throughout all the years of its gestation and growth, it is surprising that the Landauer–Büttiker approach to mesoscopics has matured with scant attention to the conserving properties lying at its roots: that is, at the level of actual microscopic principles. We systematically apply the sum rules for the electron gas to clarify the issue of conservation within the standard model of mesoscopic conduction. Noise, as observed in quantum point contacts, provides the vital clue.

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Kroy, Klaus y Erwin Frey. "Focus on soft mesoscopics: physics for biology at a mesoscopic scale". New Journal of Physics 17, n.º 11 (27 de noviembre de 2015): 110203. http://dx.doi.org/10.1088/1367-2630/17/11/110203.

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Jauho, A. P. "Photon side-bands in mesoscopics". Superlattices and Microstructures 23, n.º 3-4 (marzo de 1998): 843–51. http://dx.doi.org/10.1006/spmi.1997.0545.

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Andreev, Aleksandr F. "Superfluidity, superconductivity and magnetism in mesoscopics". Physics-Uspekhi 41, n.º 6 (30 de junio de 1998): 581–88. http://dx.doi.org/10.1070/pu1998v041n06abeh000408.

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Flórez, F. Durán, E. D. V-Niño y J. Barba-Ortega. "Frozen magnetic response in mesoscopics superconductors". Journal of Physics: Conference Series 743 (agosto de 2016): 012012. http://dx.doi.org/10.1088/1742-6596/743/1/012012.

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Feigel'man, M. V., V. V. Ryazanov y V. B. Timofeev. "The current state of quantum mesoscopics". Physics-Uspekhi 44, n.º 10S (1 de enero de 2001): 5–19. http://dx.doi.org/10.1070/1063-7869/44/10s/s01.

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Andreev, Aleksandr F. "Superfluidity, superconductivity and magnetism in mesoscopics". Uspekhi Fizicheskih Nauk 168, n.º 06 (junio de 1998): 655–64. http://dx.doi.org/10.3367/ufnr.0168.199806f.0655.

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Feigel'man, Mikhail V., Valerii V. Ryazanov y Vladislav B. Timofeev. "Chernogolovka 2000: Mesoscopic and strongly correlated electron systems The current state of quantum mesoscopics". Physics-Uspekhi 44, n.º 10 (31 de octubre de 2001): 1045–59. http://dx.doi.org/10.1070/pu2001v044n10abeh001013.

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Andreev, Alexander F. "Mesoscopics and fundamental properties of space-time". Physica B: Condensed Matter 280, n.º 1-4 (mayo de 2000): 440–41. http://dx.doi.org/10.1016/s0921-4526(99)01825-6.

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Tesis sobre el tema "Mesoscopics"

Sloggett, Clare Physics Faculty of Science UNSW. "Electron correlations in mesoscopic systems". Awarded by:University of New South Wales. School of Physics, 2007. http://handle.unsw.edu.au/1959.4/31875.

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This thesis deals with electron correlation effects within low-dimensional, mesoscopic systems. We study phenomena within two different types of system in which correlations play an important role. The first involves the spectra and spin structure of small symmetric quantum dots, or "eartificial atoms"e. The second is the "e0.7 structure"e, a well-known but mysterious anomalous conductance plateau which occurs in the conductance profile of a quantum point contact. Artificial atoms are manufactured mesoscopic devices: quantum dots which resemble real atoms in that their symmetry gives them a "eshell structure"e. We examine two-dimensional circular artificial atoms numerically, using restricted and unrestricted Hartree-Fock simulation. We go beyond the mean-field approximation by direct calculation of second-order correlation terms; a method which works well for real atoms but to our knowledge has not been used before for quantum dots. We examine the spectra and spin structure of such dots and find, contrary to previous theoretical mean-field studies, that Hund's rule is not followed. We also find, in agreement with previous numerical studies, that the shell structure is fragile with respect to a simple elliptical deformation. The 0.7 structure appears in the conductance of a quantum point contact. The conductance through a ballistic quantum point contact is quantised in units of 2e^2/h. On the lowest conductance step, an anomalous narrow conductance plateau at about G = 0.7 x 2e^2/h is known to exist, which cannot be explained in the non-interacting picture. Based on suggestive numerical results, we model conductance through the lowest channel of a quantum point contact analytically. The model is based on the screening of the electron-electron interaction outside the QPC, and our observation that the wavefunctions at the Fermi level are peaked within the QPC. We use a kinetic equation approach, with perturbative account of electron-electron backscattering, to demonstrate that these simple features lead to the existence of a 0.7-like structure in the conductance. The behaviour of this structure reproduces experimentally observed features of the 0.7 structure, including the temperature dependence and the behaviour under applied in-plane magnetic fields.

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Connolly, Malcolm. "Magnetometry of high temperature superconducting micro-disks and single crystals". Thesis, University of Bath, 2008. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.492292.

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Local Hall probe measurements and differential magneto-optical imaging with high spatial resolution have been used to investigate the magnetic state of high temperature superconducting Bi2Sr2CaCu2O8+� (BSCCO) micro-disks and platelet single crystals. The results obtained by magneto-optical imaging demonstrate that the field at which flux quantised vortices enter the disks decays exponentially with increasing temperature and the measured data agree well with analytic models for the thermal excitation of individual pancake vortices over Bean-Livingston surface barriers. Scanning Hall probe microscopy images are used to directly map the magnetic induction profiles of individual micro-disks at different applied fields and the results can be quite successfully fitted to analytic models which assume a continuous distribution of flux in the sample. At low fields, however, the characteristic mesoscopic compression of vortex clusters in increasing magnetic fields has been observed. Even at higher fields, where single vortex resolution is lost, it is still possible to track configurational changes in the vortex patterns, since competing vortex orders impose unmistakable signatures on local magnetisation curves as a function of the applied field. These observations are in excellent agreement with molecular dynamics numerical simulations which lead to a natural definition of the lengthscale for the crossover between discrete and continuum behaviours in this system. In closely related experiments, Hall magnetometry is used to probe the out-of-plane local magnetisation of platelet BSCCO single crystals. The magnetisation is found to depend on the strength and direction of an in-plane magnetic field in the crossing vortex lattices regime. The remanent magnetisation in zero out-of-plane field is found to exhibit a pronounced anisotropy, being largest with the in-plane field parallel to the crystalline a-axis, and smallest when it is parallel to the orthogonal b-axis. This behaviour is attributed to the presence of underlying linear disorder. Finally, spectral analysis of the local magnetisation data is used to estimate a lower cutoff for the characteristic frequency of thermal fluctuations of vortex positions.

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Inkaya, Ugur Yigit. "Ratchet Effect In Mesoscopic Systems". Master's thesis, METU, 2005. http://etd.lib.metu.edu.tr/upload/12606929/index.pdf.

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Rectification phenomena in two specific mesoscopic systems are reviewed. The phenomenon is called ratchet effect, and such systems are called ratchets. In this thesis, particularly a rocked quantum-dot ratchet, and a tunneling ratchet are considered. The origin of the name is explained in a brief historical background. Due to rectification, there is a net non-vanishing electronic current, whose direction can be reversed by changing rocking amplitude, the Fermi energy, or applying magnetic field to the devices (for the rocked ratchet), and tuning the temperature (for the tunneling ratchet). In the last part, a theoretical examination based on the Landauer-Bü
ttiker formalism of mesoscopic quantum transport is presented.

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Ožana, Marek. "Mesoscopic superconductivity : quasiclassical approach". Doctoral thesis, Umeå universitet, Institutionen för fysik, 2001. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-91484.

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This Thesis is concerned with the quasiclassical theory of meso-scopic superconductivity. The aim of the Thesis is to introduce the boundary conditions for a quasiclassical Green’s function on partially transparent interfaces in mesoscopic superconducting structures and to analyze the range of applicability of the quasiclassical theory. The linear boundary conditions for Andreev amplitudes, factoring the quasiclassical Green’s function, are presented. The quasiclassical theory on classical trajectories is reviewed and then generalized to include knots with paths intersections. The main focus of the Thesis is on the range of validity of the quasiclassical theory. This goal is achieved by comparison of quasiclassical and exact Green’s functions. The exact Gor’kov Greens function cannot be directly used for the comparison because of its strong microscopic variations on the length-scale of λF. It is the coarse-grain averaged exact Green’s function which is appropriate for the comparison. In most of the typical cases the calculations show very good agreement between both theories. Only for certain special situations, where the classical trajectory contains loops, one encounters discrepancies. The numerical and analytical analysis of the role of the loop-like structures and their influence on discrepancies between both exact and quasiclassical approaches is one of the main results of the Thesis. It is shown that the terms missing in the quasiclassical theory can be attributed to the loops formed by the interfering paths. In typical real samples any imperfection on the scale larger than the Fermi wavelength disconnects the loops and the path is transformed into the tree-like graph. It is concluded that the quasiclassical theory is fully applicable in most of real mesoscopic samples. In the situations where the conventional quasiclassical theory is inapplicable due to contribution of the interfering path, one can use the modification of the quasiclassical technique suggested in the Thesis.

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Cipiloglu, Mustafa Ali. "Thermoelectric Effects In Mesoscopic Physics". Phd thesis, METU, 2004. http://etd.lib.metu.edu.tr/upload/12604753/index.pdf.

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The electrical and thermal conductance and the Seebeck coefficient are calculated for one-dimensional systems, and their behavior as a function of temperature and chemical potential is investigated. It is shown that the conductances are proportional to an average of the transmission probability around the Fermi level with the average taken for the thermal conductance being over a wider range. This has the effect of creating less well-defined plateaus for thermal-conductance quantization experiments. For weak non-linearities, the charge and entropy currents across a quantum point contact are expanded as a series in powers of the applied bias voltage and the temperature difference. After that, the expansions of the Seebeck voltage in temperature difference and the Peltier heat in current are obtained. Also, it is shown that the linear thermal conductance of a quantum point contact displays a half-plateau structure, almost flat regions appearing around half-integer multiples of the conductance quantum. This structure is investigated for the saddle-potential model.

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Burghout, Wilco. "Hybrid microscopic-mesoscopic traffic simulation". Doctoral thesis, KTH, Infrastruktur, 2004. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-72.

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Traffic simulation is an important tool for modelling the operations of dynamic traffic systems and helps analyse the causes and potential solutions of traffic problems such as congestion and traffic safety. Microscopic simulation models provide a detailed representation of the traffic process, which makes them most suitable for evaluation of complicated traffic facilities and Intelligent Transportation Systems that often consist of complex traffic management, safety and information systems. Macroscopic and mesoscopic models on the other hand, capture traffic dynamics in lesser detail, but are faster and easier to apply and calibrate than microscopic models. Therefore they are most suitable for modelling large networks, while microscopic models are usually applied to smaller areas. The objective of this thesis is to combine the strengths of both modelling approaches and diminish their individual weaknesses by constructing a hybrid mesoscopic-microscopic model that applies microscopic simulation to areas of specific interest, while simulating a surrounding network in lesser detail with a mesoscopic model. Earlier attempts at hybrid modelling have concentrated on integrating macroscopic and microscopic models and have proved difficult due to the large difference between the continuous-flow representation of traffic in macroscopic models and the detailed vehicle-and driver-behaviour represented in microscopic models. These problems are solved in this thesis by developing a mesoscopic vehicle-based and event-based model that avoids the (dis)aggregation problems of traffic flows at the inter-model boundaries. In addition, this thesis focuses on the general problems of consistency across the entire hybrid model. The requirements are identified that are important for a hybrid model to be consistent across the models at different levels of detail. These requirements vary from network and route-choice consistency to consistency of traffic dynamics across the boundaries of the micro- and mesoscopic submodels. An integration framework is proposed that satisfies these requirements. This integration framework has been implemented in a prototype hybrid model, MiMe, which is used to demonstrate the correctness of the solutions to the various integration issues. The hybrid model integrates MITSIMLab, a microscopic traffic simulation model, and Mezzo, the newly developed mesoscopic model. Both the hybrid model and the new Mezzo model are applied in a number of case studies, including a network in the North of Stockholm, which show their validity and applicability. The results are promising and support both the proposed integration architecture and the importance of integrating microscopic and mesoscopic models.
QC 20100520

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Metalidis, Georgo. "Electronic transport in mesoscopic systems". [S.l.] : [s.n.], 2007. http://deposit.ddb.de/cgi-bin/dokserv?idn=985476753.

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Maassen, Ralph. "Mesoscopic particles in polymer solutions". [S.l.] : [s.n.], 2002. http://deposit.ddb.de/cgi-bin/dokserv?idn=964969610.

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Bartels, Guido. "Mesoscopic Aspects of Solid Friction". Gerhard-Mercator-Universitaet Duisburg, 2006. http://www.ub.uni-duisburg.de/ETD-db/theses/available/duett-01272006-083621/.

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The phenomenon of friction is on the one hand useful, for example for walking, which would not be so easy without friction, and on the other hand disturbing, for example in wheel bearings, where it slows down desired motion. Therefore, the origin and effect of friction is under intense research. One main point in this work is the analytic investigation of the coupling between friction force and (torsion) friction torque of a sliding and spinning disk. The local friction force at a contact area element was chosen to be an algebraic function of the local relative velocity with an exponent α > 0. It could be shown, that for α < 1 sliding and torsion friction dynamically reduce each other, while for α > 1 they amplify each other. In case of α = 1 sliding and torsion friction are decoupled. With respect to the velocity ratio of sliding and angular velocity, the final motion mode has been investigated, i.e. whether both motions stop together or whether one motion gets dominant. For α < 1 both motions stop together, while for α > 1 it depends on the initial velocity ratio. The mass distribution and contact area radius, which are encoded in the key parameter C of the corresponding differential equation, are the second important influence on the final motion mode. A phase diagram shows for given values C and α the possible final motion modes. The influence of an inhomogenous pressure distribution within the contact area on the coupling was investigated exemplarily for α = 0 with a cylinder as object. In contrast to the disk (homogenous pressure distribution) the cylinder is deflected from its initial sliding direction. In this context the motion of a curling rock on ice is discussed, as it is deflected towards the opposite direction compared to that of the cylinder. Another focal point is the investigation of the role of friction torques (rolling and torsion friction) in the compaction of nano-powders. For this three dimensional contact dynamics simulations with phenomenologically chosen contact laws were performed. With this it could be shown that torsion and rolling friction contribute significantly to the final porosity. Furthermore, these contributions of torsion and rolling friction are independent of each other and can be represented by a sum. In the chapter Conclusions and Outlook a brief introduction on recent research of atomic scale torsion friction is presented.

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Constas, Styliani. "Reactions in mesoscopic liquid clusters". Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk2/tape16/PQDD_0005/NQ27896.pdf.

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Libros sobre el tema "Mesoscopics"

L, Alʹtshuler B., Tagliacozzo A, Tognetti V y Società italiana di fisica, eds. Quantum phenomena in mesoscopic systems =: Fenomeni quantistici in sistemi mesoscopici. Amsterdam: IOS Press, 2003.

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Kulik, Igor O. Quantum Mesoscopic Phenomena and Mesoscopic Devices in Microelectronics. Dordrecht: Springer Netherlands, 2000.

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Kulik, Igor O. y Recai Ellialtioğlu, eds. Quantum Mesoscopic Phenomena and Mesoscopic Devices in Microelectronics. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-011-4327-1.

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Ataç, İmamoğlu, ed. Mesoscopic quantum optics. New York: John Wiley, 1999.

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Sohn, Lydia L. Mesoscopic Electron Transport. Dordrecht: Springer Netherlands, 1997.

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Sohn, Lydia L., Leo P. Kouwenhoven y Gerd Schön, eds. Mesoscopic Electron Transport. Dordrecht: Springer Netherlands, 1997. http://dx.doi.org/10.1007/978-94-015-8839-3.

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service), SpringerLink (Online, ed. Mesoscopic Quantum Hall Effect. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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Ando, T. Mesoscopic Physics and Electronics. Berlin, Heidelberg: Springer Berlin Heidelberg, 1998.

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Introduction to mesoscopic physics. 2^a ed. Oxford: Oxford University Press, 2002.

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Levkivskyi, Ivan. Mesoscopic Quantum Hall Effect. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-30499-6.

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Capítulos de libros sobre el tema "Mesoscopics"

Fukuyama, Hidetoshi y Hideo Yoshioka. "Mesoscopics and Superconductivity". En New Horizons in Low-Dimensional Electron Systems, 369–75. Dordrecht: Springer Netherlands, 1992. http://dx.doi.org/10.1007/978-94-011-3190-2_24.

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Kodolov, V. I. y V. V. Trineeva. "Chemical Mesoscopics: New Scientific Trend". En Nanoscience and Nanoengineering, 3–18. Description : Toronto; New Jersey : Apple Academic Press, 2019.: Apple Academic Press, 2018. http://dx.doi.org/10.1201/9781351138789-1.

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Kodolov, V. I., V. V. Trineeva, Yu V. Pershin, R. V. Mustakimov, D. K. Zhirov, I. N. Shabanova, N. S. Terebova y T. M. Makhneva. "Chemical Mesoscopics for Description of Magnetic Metal-Carbon Mesoscopic Composites Synthesis". En Chemistry and Chemical Engineering for Sustainable Development, 207–27. Includes bibliographical references and index.: Apple Academic Press, 2020. http://dx.doi.org/10.1201/9780367815967-10.

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Kelly, M. J. y V. A. Wilkinson. "Taming Tunnelling En Route to Mastering Mesoscopics". En Future Trends in Microelectronics, 185–95. Dordrecht: Springer Netherlands, 1996. http://dx.doi.org/10.1007/978-94-009-1746-0_16.

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Fertig, H. A. y L. Brey. "Mesoscopics in Graphene: Dirac Points in Periodic Geometries". En Graphene Nanoelectronics, 301–23. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-22984-8_10.

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Imry, Y. "Spectral Correlations, Symmetry Breaking and Novel Orbital Magnetic Effects in Mesoscopics". En Springer Series in Solid-State Sciences, 205–19. Berlin, Heidelberg: Springer Berlin Heidelberg, 1992. http://dx.doi.org/10.1007/978-3-642-84818-6_20.

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Kodolov, V. I., V. V. Kodolova-Chukhontzeva, N. S. Terebova y I. N. Shabanova. "A Study on Magnetic Metal Carbon Mesocomposites Green Synthesis Peculiarities with Point of Chemical Mesoscopics View". En Renewable Materials and Green Technology Products, 247–53. First edition.: Apple Academic Press, 2021. http://dx.doi.org/10.1201/9781003055471-10.

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Grätzel, Michael. "Mesoscopic Solar Cells Mesoscopic Solar Cells". En Encyclopedia of Sustainability Science and Technology, 6566–83. New York, NY: Springer New York, 2012. http://dx.doi.org/10.1007/978-1-4419-0851-3_465.

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Grätzel, Michael. "Mesoscopic Solar Cells Mesoscopic Solar Cells". En Solar Energy, 79–96. New York, NY: Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-5806-7_465.

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Mühlschlegel, B. "Mesoscopic systems". En Small Particles and Inorganic Clusters, 739–42. Berlin, Heidelberg: Springer Berlin Heidelberg, 1991. http://dx.doi.org/10.1007/978-3-642-76178-2_176.

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Actas de conferencias sobre el tema "Mesoscopics"

Chabanov, A. A., A. Yamilov, H. Cao, B. Hu y A. Z. Genack. "Mesoscopic Optics". En Frontiers in Optics. Washington, D.C.: OSA, 2005. http://dx.doi.org/10.1364/fio.2005.fthc1.

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Kovacˇ, Marko, Igor Simonovski y Leon Cizelj. "Elasto-Plastic Behavior of Polycrystalline Steel at Mesoscopic and Macroscopic Levels". En ASME 2003 Pressure Vessels and Piping Conference. ASMEDC, 2003. http://dx.doi.org/10.1115/pvp2003-1896.

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An important drawback of the classical continuum mechanics is idealization of inhomogenous microstructure of materials. Approaches, which model material behavior on mesosocopic level and can take inhomogenous microstructure of materials into the account, typically appeared over the last decade. Nevertheless, entirely anisotropic approach towards material behavior of a single grain is still not widely used. The proposed approach divides the polycrystalline aggregate into a set of grains by utilizing Voronoi tessellation (random grain structure). Each grain is assumed to be a monocrystal with random orientation of crystal lattice. Mesoscopic response of grains is modeled with anisotropic elasticity and crystal plasticity. Strain and stress fields are calculated using finite element method. Material parameters for pressure vessel steel 22 NiMoCr 3 7 are used in analysis. The analysis is limited to 2D models. Applications of the proposed approach include (a) the estimation of the minimum component/specimen size needed for the homogeneity assumption to become valid and (b) the estimation of the correlation lengths in the resulting mesoscopical stress fields, which may be used in well-established macroscopical material models. Both applications are supported with numerical examples and discussion of numerical results.

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Intes, X. "Mesoscopic fluorescence molecular tomography". En 2017 IEEE Photonics Conference (IPC). IEEE, 2017. http://dx.doi.org/10.1109/ipcon.2017.8116286.

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Horsell, D. W. "Mesoscopic phonon-electric effect". En PHYSICS OF SEMICONDUCTORS: 27th International Conference on the Physics of Semiconductors - ICPS-27. AIP, 2005. http://dx.doi.org/10.1063/1.1994579.

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Loss, Daniel. "Mesoscopic and Disordered Systems". En Proceedings of the 24th Solvay Conference on Physics. WORLD SCIENTIFIC, 2010. http://dx.doi.org/10.1142/9789814304474_0002.

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Kimura, Tatsuya y Hiroaki Ando. "Mesoscopic structure for optoelectronics". En Emerging OE Technologies, Bangalore, India, editado por Krishna Shenai, Ananth Selvarajan, C. K. N. Patel, C. N. R. Rao, B. S. Sonde y Vijai K. Tripathi. SPIE, 1992. http://dx.doi.org/10.1117/12.635239.

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Arakawa, Yasuhiko. "Mesoscopic size fabrication technology". En Advanced processing and characterization technologies. AIP, 1991. http://dx.doi.org/10.1063/1.40630.

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Hoffmann, E. A., H. A. Nilsson, L. Samuelson, H. Linke, Jisoon Ihm y Hyeonsik Cheong. "Mesoscopic Thermovoltage Measurement Design". En PHYSICS OF SEMICONDUCTORS: 30th International Conference on the Physics of Semiconductors. AIP, 2011. http://dx.doi.org/10.1063/1.3666421.

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RUBINSTEIN, JACOB y MICHELLE SCHATZMAN. "On mesoscopic superconducting samples". En Proceedings of the Third International Palestinian Conference. WORLD SCIENTIFIC, 2002. http://dx.doi.org/10.1142/9789812778390_0021.

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Vorov, O. K. "Multi-vortex phase transitions in rotating Bose-Einstein condensates". En NUCLEI AND MESOSCOPIC PHYSICS: Workshop on Nuclei and Mesoscopic Physics: WNMP 2004. AIP, 2005. http://dx.doi.org/10.1063/1.1996873.

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Informes sobre el tema "Mesoscopics"

Feng, Shechao. Applications of mesoscopic physics. Office of Scientific and Technical Information (OSTI), enero de 1992. http://dx.doi.org/10.2172/5077710.

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Kamenev, Alex y Leonid Glazman. Electron Coherence in Mesoscopic Structures. Office of Scientific and Technical Information (OSTI), marzo de 2011. http://dx.doi.org/10.2172/1009434.

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Serota, Rostislav. Mesoscopic Effects in Electronic Microstructures. Fort Belvoir, VA: Defense Technical Information Center, agosto de 1992. http://dx.doi.org/10.21236/ada254889.

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Feng, Shechao. Quantum transport in mesoscopic systems. Office of Scientific and Technical Information (OSTI), enero de 1990. http://dx.doi.org/10.2172/6800327.

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Sohn, Lydia L. Spin-Polarized Transport in Mesoscopic Devices. Fort Belvoir, VA: Defense Technical Information Center, septiembre de 2000. http://dx.doi.org/10.21236/ada394055.

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Goldman, Allen M. Tunneling and Transport in Mesoscopic Structures. Fort Belvoir, VA: Defense Technical Information Center, marzo de 1994. http://dx.doi.org/10.21236/ada283426.

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Orlando, T. P., J. E. Mooij y Seth Lloyd. Quantum Computation With Mesoscopic Superconducting Devices. Fort Belvoir, VA: Defense Technical Information Center, mayo de 2002. http://dx.doi.org/10.21236/ada414413.

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Barbosa, Geraldo A., Eric Corndorf, Prem Kumar y Horace P. Yuen. Secure Communication Using Mesoscopic Coherent States. Fort Belvoir, VA: Defense Technical Information Center, abril de 2003. http://dx.doi.org/10.21236/ada446503.

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Liu, Robert C. Quantum Noise in Mesoscopic Electron Transport. Fort Belvoir, VA: Defense Technical Information Center, octubre de 1999. http://dx.doi.org/10.21236/ada370166.

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Stroscio, Michael A., Gerald J. Iafrate, John Zavada, K. W. Kim y Yuri Sirenko. Tailoring Acoustic Modes in Mesoscopic Devices. Fort Belvoir, VA: Defense Technical Information Center, febrero de 1998. http://dx.doi.org/10.21236/ada344286.

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