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Libros sobre el tema "Relativistic processe"

Autor: Grafiati
Publicado: 10 de marzo de 2023

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1

Bertulani, Carlos A. Electromagnetic processes in relativistic heavy ion collisions. Julich: Zentralbibliothek der Kernforschungsanlage, 1987.

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2

Becchi, Carlo M. y Giovanni Ridolfi. An introduction to relativistic processes and the standard model of electroweak interactions. Milano: Springer Milan, 2006. http://dx.doi.org/10.1007/88-470-0421-7.

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3

Becchi, Carlo M. y Giovanni Ridolfi. An Introduction to Relativistic Processes and the Standard Model of Electroweak Interactions. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-06130-6.

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4

An introduction to relativistic processes and the standard model of electroweak interactions. Milan, IT: Springer, 2006.

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5

Center, Langley Research, ed. Stopping powers and cross sections due to two-photon processes in relativistic nucleus-nucleus collisions. Hampton, Va: National Aeronautics and Space Administration, Langley Research Center, 1994.

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6

Baikie, Grant. Relativistic Brownian Motion and Diffusion Processes. Independently Published, 2018.

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7

Morawetz, Klaus. Relativistic Transport. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198797241.003.0022.

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The quantum kinetic equations for relativistic baryon-meson systems are derived from Kadanoff and Baym equations. It is shown that the virtual exchange of mesons create an effective Yukawa potential between the nucleons. Binding properties of nuclear matter are discussed and the problem of Coester line is explored which means that only three-particle correlations or relativistic effective masses can describe the binding of nuclear matter correctly. The derived kinetic equations show in-medium processes of scattering and particle creation and destruction which are forbidden for free-scattering. The corresponding in-medium cross sections are presented.
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8

Unified Non-Local Relativistic Theory of Transport Processes. Elsevier, 2016. http://dx.doi.org/10.1016/c2016-0-00437-0.

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9

Alexeev, Boris V. Unified Non-Local Relativistic Theory of Transport Processes. Elsevier, 2016.

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10

Alexeev, Boris V. Unified Non-Local Relativistic Theory of Transport Processes. Elsevier Science & Technology Books, 2016.

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11

Ridolfi, Giovanni y Carlo M. Becchi. Introduction to Relativistic Processes and the Standard Model of Electroweak Interactions. Springer London, Limited, 2007.

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12

Introduction to Relativistic Processes and the Standard Model of Electroweak Interactions. Springer, 2014.

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13

Ridolfi, Giovanni y Carlo M. Becchi. Introduction to Relativistic Processes and the Standard Model of Electroweak Interactions. Springer International Publishing AG, 2014.

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14

Ridolfi, Giovanni y Carlo M. Becchi. An introduction to relativistic processes and the standard model of electroweak interactions. Springer, 2008.

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15

Ridolfi, Giovanni y Carlo M. M. Becchi. An Introduction to Relativistic Processes and the Standard Model of Electroweak Interactions. Springer, 2016.

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16

Knecht, Andromeda. The Relativistic Perceptual Field Model, A Study Of Consciousness and Cognitive Process. Branching Leaf Publications, 1999.

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17

Knecht, Andromeda. The Relativistic Perceptual Field Model, A Study Of Consciousness And Cognitive Process (Pathways Through Consciousness). 2a ed. Branching Leaf Publications, 1999.

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18

Knecht, Andromeda. The Relativistic Perceptual Field Model, A Study Of Consciousness And Cognitive Process (Pathways Through Consciousness). 2a ed. Branching Leaf Publications, 1999.

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19

Becchi, Carlo M. y Giovanni Ridolfi. An introduction to relativistic processes and the standard model of electroweak interactions (UNITEXT / Collana di Fisica e Astronomia). Springer, 2005.

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20

Deruelle, Nathalie y Jean-Philippe Uzan. The Lambda-CDM model of the hot Big Bang. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198786399.003.0059.

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This chapter introduces the Lambda-CDM (cold dark matter) model. In 1948, under the impetus of George Gamow, Robert Hermann, Ralph Alpher, and Hans Bethe in particular, relativistic cosmology entered the second phase of its history. In this phase, physical processes, in particular, nuclear and atomic processes, are taken into account. This provides two observational tests of the model: primordial nucleosynthesis, which explains the origin of light nuclei, and the existence of the cosmic microwave background, and it establishes the fact that the universe has a thermal history. Study of the large-scale structure of the universe then indicates the existence of dark matter and a nonzero cosmological constant. This model, known as the Λ‎CDM model, is the standard model of contemporary cosmology.
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21

Succi, Sauro. Boltzmann’s Kinetic Theory. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199592357.003.0002.

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Kinetic theory is the branch of statistical physics dealing with the dynamics of non-equilibrium processes and their relaxation to thermodynamic equilibrium. Established by Ludwig Boltzmann (1844–1906) in 1872, his eponymous equation stands as its mathematical cornerstone. Originally developed in the framework of dilute gas systems, the Boltzmann equation has spread its wings across many areas of modern statistical physics, including electron transport in semiconductors, neutron transport, quantum-relativistic fluids in condensed matter and even subnuclear plasmas. In this Chapter, a basic introduction to the Boltzmann equation in the context of classical statistical mechanics shall be provided.
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22

Saha, Prasenjit y Paul A. Taylor. The Astronomers' Magic Envelope. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198816461.001.0001.

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This is a conceptual introduction to astrophysical processes, at the advanced-undergraduate level. Topics are developed in more or less their historical order of discovery, but from a modern perspective. The book begins with orbits, gradually building in complexity to chaos, relativistic orbits and gravitational lensing, and eventually a semi-classical treatment of gravitational-wave sources. The second part is about how stars work, including related topics like the mass—radius relations for planets and stellar remnants. The third part is about the expanding universe and its history, the concluding section being about fluctuations in the microwave background. More than 60 exercises range from small conceptual puzzles to numerical solution of differential equations, for example, to find the value of Chan-drasekhar’s limit. An unusual feature of the book is the adaptive choice of units according to context, and unit con-versions, such as to and from Planckian units, are an important thread in the book. Observed phenomena are generally derived from basic principles and processes, with an emphasis—as highlighted in the title—on physical problem solving and approximation throughout.
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23

Glazov, M. M. Electron & Nuclear Spin Dynamics in Semiconductor Nanostructures. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198807308.001.0001.

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In recent years, the physics community has experienced a revival of interest in spin effects in solid state systems. On one hand, solid state systems, particularly semicon- ductors and semiconductor nanosystems, allow one to perform benchtop studies of quantum and relativistic phenomena. On the other hand, interest is supported by the prospects of realizing spin-based electronics where the electron or nuclear spins can play a role of quantum or classical information carriers. This book aims at rather detailed presentation of multifaceted physics of interacting electron and nuclear spins in semiconductors and, particularly, in semiconductor-based low-dimensional structures. The hyperfine interaction of the charge carrier and nuclear spins increases in nanosystems compared with bulk materials due to localization of electrons and holes and results in the spin exchange between these two systems. It gives rise to beautiful and complex physics occurring in the manybody and nonlinear system of electrons and nuclei in semiconductor nanosystems. As a result, an understanding of the intertwined spin systems of electrons and nuclei is crucial for in-depth studying and control of spin phenomena in semiconductors. The book addresses a number of the most prominent effects taking place in semiconductor nanosystems including hyperfine interaction, nuclear magnetic resonance, dynamical nuclear polarization, spin-Faraday and -Kerr effects, processes of electron spin decoherence and relaxation, effects of electron spin precession mode-locking and frequency focusing, as well as fluctuations of electron and nuclear spins.
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