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Books on the topic 'Electromagnetic solver'

Author: Grafiati
Published: 4 June 2021
Last updated: 5 February 2022

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1

Salazar Bloise, Félix, Rafael Medina Ferro, Ana Bayón Rojo, and Francisco Gascón Latasa. Solved Problems in Electromagnetics. Berlin, Heidelberg: Springer Berlin Heidelberg, 2017. http://dx.doi.org/10.1007/978-3-662-48368-8.

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2

Nasar, S. A. 2008+ solved problems in electromagnetics. Raleigh, N.C: SciTech Publishing, 2008.

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3

Nasar, S. A. 2008+ solved problems in electromagnetics. Raleigh, N.C: SciTech Publishing, 2008.

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4

2000 solved problems in electromagnetics. New York: McGraw-Hill, 1992.

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5

Nasar, S. A. 2008+ solved problems in electromagnetics. Raleigh, N.C: SciTech Publishing, 2008.

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6

Hafner, Christian. Post-modern electromagnetics: Using intelligent Maxwell solvers. Chichester: John Wiley, 1999.

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7

NATO Advanced Research Workshop on Electromagnetic Coupling in the Polar Clefts and Caps (1988 Lillehammer, Norway). Electromagnetic coupling in the polar clefts and caps. Dordrecht: Kluwer Academic Publishers, 1989.

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8

Zhang, Yu. Higher Order Basis Based Integral Equation Solver (HOBBIES). Hoboken, New Jersey: John Wiley & Sons Inc., 2012.

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9

Volker, Bothmer, Hady Ahmed Abdel, and International Astronomical Union, eds. Solar activity and its magnetic origin: Proceedings of the 233rd symposium of the International Astronomical Union held in Cairo, Egypt, March 31-April 4, 2006. Cambridge: Cambridge University Press, 2006.

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10

Zhang, Yu. Higher Order Basis Based Integral Equation Solver (HOBBIES). Hoboken, New Jersey: John Wiley & Sons Inc., 2012.

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11

Esser, Ruth. Interpretation of solar wind ion composition measurements from Ulysses: NASA grant NAGW-4379, final report, for the period 1 March 1995 through 30 September 1997. Cambridge, Mass: Smithsonian Institution, Astrophysical Observatory, 1998.

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12

COSPAR. Scientific Commission E. E2.3 Symposium (Nagoya, Japan). Magnetic reconnection processes in the solar atmosphere: Proceedings of the E2.3 Symposium of COSPAR Scientific Commission E which was held during the thirty-second COSPAR Scientific Assembly, Nagoya, Japan, 12-19 July, 1998. Oxford: Published for the Committee on Space Research [by] Pergamon, 2000.

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13

Disaster preparedness for EMP attacks and solar storms. [Charleston, S.C.?: CreateSpace], 2012.

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14

Gaier, James R. EMI shields made from intercalated graphite composites. [Washington, DC]: National Aeronautics and Space Administration, 1995.

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15

Sidi͡akin, V. G. Vlii͡anie globalʹnykh ėkologicheskikh faktorov na nervnui͡u sistemu. Kiev: Nauk. dumka, 1986.

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16

M, Fogiel, and Research and Education Association, eds. The Electromagnetics problem solver. New York, N.Y: The Association, 1987.

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17

Bloise, Félix Salazar, Rafael Medina Ferro, Ana Bayón Rojo, and Francisco Gascón Latasa. Solved Problems in Electromagnetics. Springer, 2016.

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18

2008+ Solved Problems in Electromagnetics. SciTech Publishing, Inc., 2007.

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19

Nasar. 2008+ Solved Problems in Electromagnetics. Institution of Engineering and Technology, 2008. http://dx.doi.org/10.1049/sbew037e.

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20

Kovetz, Attay. Electromagnetic Theory with 225 Solved Problems. Oxford University Press, USA, 2000.

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21

Electromagnetic Theory with 225 Solved Problems. Oxford University Press, USA, 2000.

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22

Franklin, Jerrold. Solved Problems in Classical Electromagnetism. Dover Publications, Incorporated, 2017.

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23

(Editor), Constantine Balanis, ed. Recent Advances in Integral Equation Solvers in Electromagnetics (Synthesis Lectures on Computational Electromagnetics). Morgan & Claypool, 2007.

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24

Pierrus, J. Solved Problems in Classical Electromagnetism: Analytical and Numerical Solutions with Comments. Oxford University Press, 2018.

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25

Pierrus, J. Solved Problems in Classical Electromagnetism: Analytical and Numerical Solutions with Comments. Oxford University Press, 2018.

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26

M, Fogiel, and Research and Education Association, eds. The electromagnetics problem solver: A complete solution guide to any textbook. Piscataway, N.J: The Association, 1995.

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27

M, Fogiel, and Research and Education Association, eds. The electromagnetics problem solver: A complete solution guide to any textbook. Piscataway, N.J: The Association, 2000.

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28

Unger, Herwig, and Wolfgang A. Halang, eds. Autonomous Systems 2016. VDI Verlag, 2016. http://dx.doi.org/10.51202/9783186848109.

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To meet the expectations raised by the terms Industrie 4.0, Industrial Internet and Internet of Things, real innovations are necessary, which can be brought about by information processing systems working autonomously. Owing to their growing complexity and their embedding in complex environments, their design becomes increasingly critical. Thus, the topics addressed in this book span from verification and validation of safety-related control software and suitable hardware designed for verifiability to be deployed in embedded systems over approaches to suppress electromagnetic interferences to strategies for network routing based on centrality measures and continuous re-authentication in peer-to-peer networks. Methods of neural and evolutionary computing are employed to aid diagnosing retinopathy of prematurity, to invert matrices and to solve non-deterministic polynomial-time hard problems. In natural language processing, interface problems between humans and machines are solved with g...
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29

Tiwari, Sandip. Electromagnetic-matter interactions and devices. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198759874.003.0006.

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This chapter explores electromagnetic-matter interactions from photon to extinction length scales, i.e., nanometer of X-ray and above. Starting with Casimir-Polder effect to understand interactions of metals and dielectrics at near-atomic distance scale, it stretches to larger wavelengths to explore optomechanics and its ability for energy exchange and signal transduction between PHz and GHz. This range is explored with near-quantum sensitivity limits. The chapter also develops the understanding phononic bandgaps, and for photons, it explores the use of energetic coupling for useful devices such as optical tweezers, confocal microscopes and atomic clocks. It also explores miniature accelerators as a frontier area in accelerator physics. Plasmonics—the electromagnetic interaction with electron charge cloud—is explored for propagating and confined conditions together with the approaches’ possible uses. Optoelectronic energy conversion is analyzed in organic and inorganic systems, with their underlying interaction physics through solar cells and its thermodynamic limit, and quantum cascade lasers.
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30

Sangster, Alan J. Electromagnetic Foundations of Solar Radiation Collection: A Technology for Sustainability. Springer, 2014.

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31

(Editor), Volker Bothmer, and Ahmed Abdel Hady (Editor), eds. Solar Activity and its Magnetic Origin (IAU S233) (Proceedings of the International Astronomical Union Symposia and Colloquia). Cambridge University Press, 2006.

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32

Wolf, E. L. More about the Atmosphere, Molecules, and their Interaction with Radiation. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198769804.003.0007.

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Electric dipole radiation is possible from certain molecules (but not with diatomics like oxygen and nitrogen) to make them active in intercepting and re-radiating electromagnetic waves in the atmosphere. Molecules of the greenhouse gas variety include carbon dioxide, ozone and water, as discussed in this chapter. Molecular contributions to the greenhouse heat-trapping effect are described, including sophisticated satellite measurements. The role of molecular absorption in altering the ground-level solar spectrum absorbed by solar farms is summarized. In this chapter we provide a molecular basis for the absorption and emission from the atmosphere, first discussed in Chapter 3. This gives a better understanding of the solar spectrum as seen on Earth, that feeds photovoltaic devices as well as heating the Earth’s surface, that in turn creates winds and waves that can be harvested.
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33

The Spinning Magnet: The Electromagnetic Force That Created the Modern World--and Could Destroy It. Dutton, 2018.

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34

Deruelle, Nathalie, and Jean-Philippe Uzan. Interacting charges I. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198786399.003.0038.

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This chapter addresses the problem of radiation by a system of point charges. Owing to the fact that the electromagnetic interaction propagates at finite speed, this problem can only be solved iteratively, by assuming that all speeds are small compared to the speed of light. The chapter then derives the dipole and quadrupole formulas giving the radiation field and the energy radiated by the system in the lowest orders. Finding the field and the radiation of a system of charges beyond the dipole approximation is rather more difficult, but necessary in the absence of dipole radiation. This is also a useful exercise for studying the radiation of a mass system in theories of gravitation where the gravitational mass is equal to the inertial mass. In addition, the chapter finds the equations of motion of the charges of the system to third order in the velocities.
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35

Gooday, Graeme, and Daniel Jon Mitchell. Rethinking ‘Classical Physics’. Edited by Jed Z. Buchwald and Robert Fox. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199696253.013.25.

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This article discusses the reasons for rethinking ‘classical physics’, building upon Richard Staley’s historical enquiry into the origins of the distinction between ‘classical’ and ‘modern physics’. In particular, it challenges Staley’s thesis that ‘classical’ and ‘modern physics’ were invented simultaneously by Max Planck at the Solvay conference in 1911, arguing instead that the emergence of these notions took place separately over a period that reached as late as the 1930s. The article first considers how the identification of the ether as a key feature of classical physics has drawn historians’ attention towards its changing metaphysical fortunes during the nineteenth century. It then describes the connections between physics and industry that are obscured by the theoretical bias of any dichotomy between ‘classical’ and ‘modern physics’. Finally, it highlights continuity in the field of French experimental physics by focusing on three comparative case studies dealing with electrocapillarity, electromagnetic waves, and X-rays.
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36

M, Pap Judit, Fröhlich Claus, Ulrich R. K, and National Solar Observatory/Sacramento Peak. Summer Workshop, eds. Solar electromagnetic radiation study for solar cycle 22: Proceedings of the SOLERS22 Workshop held at the National Solar Observatory, Sacramento Peak, Sunspot, New Mexico, U.S.A., June 17-21, 1996. Dordrecht: Kluwer Academic Publishers, 1998.

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37

Mitchell, Alanna. Spinning Magnet: The Force That Created the Modern World - and Could Destroy It. Oneworld Publications, 2018.

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38

T, DeLand Matthew, Hilsenrath Ernest, and United States. National Aeronautics and Space Administration., eds. Analysis of solar spectral irradiance measurements from the SBUV/2-series and the SSBUV instruments: Semi-annual report ... 1 March 1996 to 31 August 1996. [Washington, DC: National Aeronautics and Space Administration, 1996.

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39

Analysis of solar spectral irradiance measurements from the SBUV/2-series and the SSBUV instruments: Semi-annual report ... 1 March 1996 to 31 August 1996. [Washington, DC: National Aeronautics and Space Administration, 1996.

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40

T, DeLand Matthew, Hilsenrath Ernest, and United States. National Aeronautics and Space Administration., eds. Analysis of solar spectral irradiance measurements from the SBUV/2-series and the SSBUV instruments: Semi-annual report, period of performance: 1 March 1997 to 31 August 1997; contract number: NASW-4864. [Washington, DC: National Aeronautics and Space Administration, 1997.

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41

Analysis of solar spectral irradiance measurements from the SBUV/2-series and the SSBUV instruments: Semi-annual report, period of performance: 31 August 1996 to 28 February 1997, contract number-- NASW-4864. [Washington, DC: National Aeronautics and Space Administration, 1997.

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42

T, DeLand Matthew, Hilsenrath Ernest, and United States. National Aeronautics and Space Administration., eds. Analysis of solar spectral irradiance measurements from the SBUV/2-series and the SSBUV instruments: Semi-annual report, period of performance: 31 August 1996 to 28 February 1997, contract number-- NASW-4864. [Washington, DC: National Aeronautics and Space Administration, 1997.

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43

T, DeLand Matthew, Hilsenrath Ernest, and United States. National Aeronautics and Space Administration., eds. Analysis of solar spectral irradiance measurements from the SBUV/2-series and the SSBUV instruments: Semi-annual report, period of performance: 1 March 1997 to 31 August 1997; contract number: NASW-4864. [Washington, DC: National Aeronautics and Space Administration, 1997.

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44

Kawahara, Reki. Sword art online: Alicization turning. 2017.

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45

Vurgaftman, Igor, Matthew P. Lumb, and 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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46

J, Bourassa Roger, Gruenbaum P. E, and Langley Research Center, eds. Operation of the computer model for microenvironment solar exposure. Hampton, Va: National Aeronautics and Space Administration, Langley Research Center, 1995.

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47

Old Farmer's Almanac 2018. Old Farmer's Almanac, 2018.

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