Thematische Bibliographien / Electromagnetic calculation / Bücher
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Bücher zum Thema „Electromagnetic calculation“

Autor: Grafiati
Veröffentlicht am 28. Juni 2021
Zuletzt aktualisiert am 17. Februar 2022

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1

Ida, N. Electromagnetics and calculation of fields. New York: Springer-Verlag, 1992.

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2

Ida, Nathan. Electromagnetics and calculation of fields. 2. Aufl. New York: Springer, 1997.

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3

Ida, Nathan. Electromagnetics and calculation of fields. New York: Springer-Verlag, 1992.

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4

Ostreĭko, V. N. Calculation of electromagnetic fields in multilayer media. New York: Gordon and Breach Science Publishers, 1989.

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5

Huppunen, Jussi. High-speed solid-rotor induction machine: Electromagnetic calculation and design. Lappeenranta: Lappeenranta University of Technology, 2004.

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6

Haase, Heiko. Transmission line super theory: A new approach to an effective calculation of electromagnetic interference. Magdeburg: Otto-von-Guericke-Universität Magdeburg, 2004.

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7

Ida, Nathan, und João P. A. Bastos. Electromagnetics and Calculation of Fields. Herausgegeben von R. Mittra. New York, NY: Springer US, 1992. http://dx.doi.org/10.1007/978-1-4684-0526-2.

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8

Ida, Nathan, und João P. A. Bastos. Electromagnetics and Calculation of Fields. New York, NY: Springer New York, 1997. http://dx.doi.org/10.1007/978-1-4612-0661-3.

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9

Ida, Nathan. Electromagnetics and Calculation of Fields. New York, NY: Springer US, 1992.

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10

Hafner, Christian. The generalized multipole technique for computational electromagnetics. Boston: Artech House, 1990.

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11

Z, Gevorkyan L., Ginovyan M. S und Bobrova M. N, Hrsg. Non-regular differential equations and calculations of electromagnetic fields. Singapore: World Scientific, 1998.

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12

Smirnov, Aleksandr. Electric drive with contactless synchronous motors. ru: INFRA-M Academic Publishing LLC., 2021. http://dx.doi.org/10.12737/1192105.

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Contactless synchronous machines are considered, classification, description of structures, construction of analytical and numerical models for research calculations and design of inductor motors with electromagnetic excitation and with excitation from permanent magnets are given. Examples of design and research calculations of the operation of a synchronous drive of automation systems by means of a computational experiment are given.
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13

Sasiela, Richard J. Electromagnetic wave propagation in turbulence: Evaluation and application of Mellin transforms. 2. Aufl. Bellingham, Wash: SPIE, 2007.

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14

Sasiela, Richard J. Electromagnetic wave propagation in turbulence: Evaluation and application of Mellin transforms. 2. Aufl. Bellingham, WA: SPIE Press, 2007.

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15

Sasiela, Richard J. Electromagnetic wave propagation in turbulence: Evaluation and application of Mellin transforms. Berlin: Springer-Verlag, 1994.

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16

Numerical methods for engineering: An introduction using MATLAB and computational electromagnetics examples. Raleigh, NC: SciTech Pub., 2011.

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17

Hafner, Christian. The 3D electrodynamic wave simulator: 3D MMP softwareand user's guide. Chichester: Wiley, 1993.

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18

Henning, Bomholt Lars, Hrsg. The 3D electrodynamic wave simulator: 3D MMP software and user's guide. Chichester, England: Wiley, 1993.

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19

1948-, Mannhold Raimund, Hrsg. Calculation of drug lipophilicity: The hydrophobic fragmental constant approach. Weinheim: VCH, 1992.

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20

Rekker, Roelof F. Calculation of drug lipophilicity: Tte hydrophobic fragmental constant approach. Weinheim: VCH, 1992.

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21

1938-, Kumar Vijay, Andersen O. K, Mookerjee Abhijit 1946- und Working Group on "Disordered Alloys" (1992 : ICTP, Trieste, Italy), Hrsg. Lectures on Methods of electronic structure calculations: Proceedings of the Miniworkshop on "Methods of Electronic Structure Calculations" and Working Group on "Disordered Alloys" : ICTP, Trieste, Italy, 10 August-4 September 1992. Singapore: World Scientific, 1994.

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22

Kratz, Robert. Principles of pulsed magnet design. Berlin: Springer, 2002.

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23

Electromagnetics and Calculation of Fields. Springer, 2012.

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24

Henriksen, Niels Engholm, und Flemming Yssing Hansen. Unimolecular Reactions. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198805014.003.0007.

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This chapter considers unimolecular reactions; photo-induced reactions, that is, true unimolecular reactions; and reactions initiated by collisional activation, that is, apparent unimolecular reactions where it is assumed that the time scales for activation and subsequent reaction are well separated. Elements of classical and quantum dynamical descriptions are discussed, including Slater theory and the quantum mechanical description of photo-induced reactions. Statistical theories aiming at the calculation of micro-canonical as well as canonical rate constants are discussed, including a detailed discussion of RRKM theory. It concludes with a discussion of femtochemistry, that is, the observation and control of chemical dynamics using femtosecond pulses of electromagnetic radiation, focusing on the control of unimolecular reactions via the interaction with coherent light; that is, laser control.
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25

Semenovich, Zhdanov Mikhail, und Institut zemnogo magnetizma, ionosfery i rasprostranenii͡a︡ radiovoln (Akademii͡a︡ nauk SSSR), Hrsg. Pri͡a︡mye i obratnye zadachi geoėlektriki. Moskva: "Nauka", 1990.

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26

Milonni, Peter W. An Introduction to Quantum Optics and Quantum Fluctuations. Oxford University Press, 2019. http://dx.doi.org/10.1093/oso/9780199215614.001.0001.

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This book is an introduction to quantum optics for students who have studied electromagnetism and quantum mechanics at an advanced undergraduate or graduate level. It provides detailed expositions of theory with emphasis on general physical principles. Foundational topics in classical and quantum electrodynamics, including the semiclassical theory of atom-field interactions, the quantization of the electromagnetic field in dispersive and dissipative media, uncertainty relations, and spontaneous emission, are addressed in the first half of the book. The second half begins with a chapter on the Jaynes-Cummings model, dressed states, and some distinctly quantum-mechanical features of atom-field interactions, and includes discussion of entanglement, the no-cloning theorem, von Neumann’s proof concerning hidden variable theories, Bell’s theorem, and tests of Bell inequalities. The last two chapters focus on quantum fluctuations and fluctuation-dissipation relations, beginning with Brownian motion, the Fokker-Planck equation, and classical and quantum Langevin equations. Detailed calculations are presented for the laser linewidth, spontaneous emission noise, photon statistics of linear amplifiers and attenuators, and other phenomena. Van der Waals interactions, Casimir forces, the Lifshitz theory of molecular forces between macroscopic media, and the many-body theory of such forces based on dyadic Green functions are analyzed from the perspective of Langevin noise, vacuum field fluctuations, and zero-point energy. There are numerous historical sidelights throughout the book, and approximately seventy exercises.
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27

Electromagnetic Wave Propagation in Turbulence: Evaluation and Application of Mellin Transforms, 2nd Ed. (SPIE Press Monograph Vol. PM171). 2. Aufl. SPIE Publications, 2007.

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28

Dyall, Kenneth G., und Knut Faegri. Introduction to Relativistic Quantum Chemistry. Oxford University Press, 2007. http://dx.doi.org/10.1093/oso/9780195140866.001.0001.

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This book provides an introduction to the essentials of relativistic effects in quantum chemistry, and a reference work that collects all the major developments in this field. It is designed for the graduate student and the computational chemist with a good background in nonrelativistic theory. In addition to explaining the necessary theory in detail, at a level that the non-expert and the student should readily be able to follow, the book discusses the implementation of the theory and practicalities of its use in calculations. After a brief introduction to classical relativity and electromagnetism, the Dirac equation is presented, and its symmetry, atomic solutions, and interpretation are explored. Four-component molecular methods are then developed: self-consistent field theory and the use of basis sets, double-group and time-reversal symmetry, correlation methods, molecular properties, and an overview of relativistic density functional theory. The emphases in this section are on the basics of relativistic theory and how relativistic theory differs from nonrelativistic theory. Approximate methods are treated next, starting with spin separation in the Dirac equation, and proceeding to the Foldy-Wouthuysen, Douglas-Kroll, and related transformations, Breit-Pauli and direct perturbation theory, regular approximations, matrix approximations, and pseudopotential and model potential methods. For each of these approximations, one-electron operators and many-electron methods are developed, spin-free and spin-orbit operators are presented, and the calculation of electric and magnetic properties is discussed. The treatment of spin-orbit effects with correlation rounds off the presentation of approximate methods. The book concludes with a discussion of the qualitative changes in the picture of structure and bonding that arise from the inclusion of relativity.
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29

Deruelle, Nathalie, und Jean-Philippe Uzan. The field of a moving charge. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198786399.003.0035.

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This chapter begins the study of electromagnetic radiation by calculating the field created by a single moving charge, first when in uniform motion, and then when it is accelerated. It reveals the potential created by a charge in uniform motion starting from the Coulomb expression for the potential in the frame where it is at rest, and then by making a Lorentz transformation. The chapter then follows the exact reasoning for any type of motion by introducing inertial frames tangent to the charge world line. In this way, it obtains the retarded Liénard–Wiechert potential created by a charge in any type of motion. After studying some special cases of the field of a moving charge, the chapter defines the asymptotic, radiation, part of the field.
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30

Anderson, O. K., und V. Kumar. Lectures on Methods of Electronic Structure Calculations: Proceedings of the Miniworkshop on "Methods of Electronic Structure Calculations" and Work. World Scientific Pub Co Inc, 1995.

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31

Vurgaftman, Igor, Matthew P. Lumb und Jerry R. Meyer. Bands and Photons in III-V Semiconductor Quantum Structures. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198767275.001.0001.

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Semiconductor quantum structures are at the core of many photonic devices such as lasers, photodetectors, solar cells etc. To appreciate why they are such a good fit to these devices, we must understand the basic features of their band structure and how they interact with incident light. This book takes the reader from the very basics of III-V semiconductors (some preparation in quantum mechanics and electromagnetism is helpful) and shows how seemingly obscure results such as detailed forms of the Hamiltonian, optical transition strengths, and recombination mechanisms follow. The reader does not need to consult other references to fully understand the material, although a few handpicked sources are listed for those who would like to deepen their knowledge further. Connections to the properties of novel materials such as graphene and transition metal dichalcogenides are pointed out, to help prepare the reader for contributing at the forefront of research. The book also supplies a complete, up-to-date database of the band parameters that enter into the calculations, along with tables of optical constants and interpolation schemes for alloys. From these foundations, the book goes on to derive the characteristics of photonic semiconductor devices (with a focus on the mid-infrared) using the same principles of building all concepts from the ground up, explaining all derivations in detail, giving quantitative examples, and laying out dimensional arguments whenever they can help the reader’s understanding. A substantial fraction of the material in this book has not appeared in print anywhere else, including journal publications.
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32

Kratz, Robert, und Peter Wyder. Principles of Pulsed Magnet Design. Springer Berlin Heidelberg, 2010.

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33

Kratz, Robert, und Peter Wyder. Principles in Pulsed Magnet Design. Springer, 2002.

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34

T. Wave Phenomena. Courier Dover Publications, 2014.

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