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Advanced Functional Materials, 2022
Electromagnetic (EM) functional materials play an increasingly important role in solving EM wave pollution in both modern military and civil fields. Graphene‐based materials are the most promising candidates in the applications of EM wave shielding and ...
Yuxing Xia, Weiwei Gao, Chao Gao
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Electromagnetic (EM) functional materials play an increasingly important role in solving EM wave pollution in both modern military and civil fields. Graphene‐based materials are the most promising candidates in the applications of EM wave shielding and ...
Yuxing Xia, Weiwei Gao, Chao Gao
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Molecules in Electromagnetic Fields
, 2018Molecules in Electromagnetic Fields is intended to serve as a tutorial for students beginning research, theoretical or experimental, in an area related to molecular physics.
R. Krems
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Manipulating matter by strong coupling to vacuum fields
Science, 2021Captivating cavities Laser technology is a familiar example of how confining light between two mirrors can tune its properties. Quantum mechanics also dictates that even without extraneous light, matter confined in a cavity resonant with its electronic ...
F. García-Vidal, C. Ciuti, T. Ebbesen
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Classical Electromagnetic Fields
1990In 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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2016
Substantial information on the Earth’s environment is gained from the remotely sensed properties of electromagnetic waves that interact with the observed target. The basic quantities involved in the information acquisition process are the electromagnetic field vectors, the associated power and their statistical parameters.
Anca Tureanu +3 more
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Substantial information on the Earth’s environment is gained from the remotely sensed properties of electromagnetic waves that interact with the observed target. The basic quantities involved in the information acquisition process are the electromagnetic field vectors, the associated power and their statistical parameters.
Anca Tureanu +3 more
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Quantization of the Electromagnetic Field
2000In this chapter, we quantize the electromagnetic field and find the commutation relations between the various components of the electric, magnetic fields and the vector potential.
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Electromagnetic fields and cells
Journal of Cellular Biochemistry, 1993AbstractThere is strong public interest in the possibility of health effects associated with exposure to extremely low frequency (elf) electromagnetic (EM) fields. Epidemiological studies suggest a probable, but controversial, link between exposure to elf EM fields and increased incidence of some cancers in both children and adults.
Ann Shirley-Henderson +2 more
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2011
The combined action functional for the electromagnetic and gravitational fields in the presence of charged matter is given by $$ S\equiv S_{\rm G}[g_{\mu\nu}]+ S_{\rm E}[g_{\mu\nu},A_\mu] + S_{\rm M}[g_{\mu\nu},A_\mu,\Phi^A], $$ where S M is the action functional for the material system and the ? A are the matter dynamical variables.
Steven M. Christensen, Bryce S. DeWitt
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The combined action functional for the electromagnetic and gravitational fields in the presence of charged matter is given by $$ S\equiv S_{\rm G}[g_{\mu\nu}]+ S_{\rm E}[g_{\mu\nu},A_\mu] + S_{\rm M}[g_{\mu\nu},A_\mu,\Phi^A], $$ where S M is the action functional for the material system and the ? A are the matter dynamical variables.
Steven M. Christensen, Bryce S. DeWitt
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Atoms in Electromagnetic Fields
1994Atoms in weak broadband quasi-resonant fields - light shifts atoms in linear superpositions of Zeeman sublevels-Zeeman coherences atoms in strong radiofrequency fields - the dressed-atom approach in the RF domain atoms in intense resonant laser beams - the dressed-atom approach in the optical domain the radiative cascade of the dressed atom - photon ...
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General Electromagnetic Fields [PDF]
, 1995 In this Chapter we will derive expressions for general field and alignment errors to be used in the Hamiltonian perturbation theory. Pure electromagnetic multipole fields have been derived in [2.1] from the Laplace equation while ignoring kinematic terms as well as higher-order field perturbations.
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