Results 291 to 300 of about 31,184 (319)

Near-Infrared to T-Ray Frequency Conversion Using Kagome Photonic Crystal Resonators. [PDF]

Nanomaterials (Basel)
Tyagi D, Laxmi V, Irshad A, Parveen A, Alam M, Tian Y, Ouyang Z.   +6 more
europepmc   +1 more source

Metaphysical indeterminacy in Everettian quantum mechanics. [PDF]

Eur J Philos Sci
Glick D, Le Bihan B.
europepmc   +1 more source

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Classical Electromagnetic Fields

1990
In this book we present the basic ideas needed to understand how laser light interacts with various forms of matter. Among the important consequences is an understanding of the laser itself. The present chapter summarizes classical electromagnetic fields, which describe laser light remarkably well.
Murray Sargent, Pierre Meystre
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Classical Electromagnetic Theory

Physics Bulletin, 1963
By N. Tralli London: McGraw-Hill Publishing Co. Ltd. 1963. Pp. ix + 308. Price 77s. This book will occupy a useful place in the teaching of electromagnetism to undergraduates. Since there are so many adequate modern treatments of the subject available, this is already considerable praise!
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Classical Entanglement in Electromagnetic Beams

The Rochester Conferences on Coherence and Quantum Optics and the Quantum Information and Measurement meeting, 2013
We study classical entanglement for an optical beam with two binary degrees of freedom: polarization and spatial parity; and demonstrate experimentally a measurement of Bell’s inequality and show its usefulness as a quantitative tool in classical optical coherence theory.
Kagalwala, Kumel H., Giuseppe, Giovanni Di, Abouraddy, Ayman F., Saleh, Bahaa E.A.   +3 more
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Classical Electromagnetic Radiation

Physics Bulletin, 1966
J. B. Marion New York: Academic Press. 1965. Pp. xv + 479. Price 86s. As the author says, there exists a vast literature of general works on electricity and magnetism. This book extracts and organizes the topics most relevant to radiation theory, and presents them to the student who is equipped with the basic physical facts and the basic mathematical ...
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Review of Classical Electromagnetism [PDF]

, 1994
The study of nature and the laws which it follows is one of the main goals of scientists. Physicists, in particular, dedicate themselves to research mechanical, gravitational, electric, magnetic, optical, and nuclear phenomena. In this Chapter we will concentrate on the study of classical electromagnetism.
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The theory of multipoles in classical electromagnetism

International Journal of Engineering Science, 1971
Abstract The static and dynamic theory of electric and magnetic multipoles is given for a rigid medium and then generalized for a nondissapative deformable continuum.
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Required Revisions to Classical Electromagnetism [PDF]

, 2008
Abstract : It is shown that the generally accepted set of Maxwell s equations is incomplete and an additional law pertaining to the divergence of the induced electric field is required. A major implication is that standard derivations of the wave equations given in the literature are invalid.
Paul J. Cote, Mark Johnson
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Classical Electromagnetism

2017
: Two jewels of classical physics are James Clerk Maxwell’s field equations (1861–1862) and the Lorentz force law (Henrick Lorentz, 1892) for electrodynamics. Although this field theory is not exact in some extreme situations, it is bedrock physics that has been used successfully to solve many problems in applied science.
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