Email this article Three-dimensional few-cycle optical pulses in an array of carbon nanotubes inside a magnetic field
- Authors: Galkina E.N.1,2, Belonenko M.B.2,3, Evdokimov R.A.4
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Affiliations:
- Volgograd State Medical University
- Laboratory of Nanotechnologies
- Volgograd State University
- Volgograd State Agricultural University
- Issue: Vol 82, No 1 (2018)
- Pages: 17-20
- Section: Proceedings of the XVI A.P. Sukhorukov National Seminar “The Physics and Applications of Microwaves” (“Waves-2017”)
- URL: https://journals.rcsi.science/1062-8738/article/view/185271
- DOI: https://doi.org/10.3103/S1062873818010070
- ID: 185271
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Abstract
The behavior of three-dimensional few-cycle optical pulses, propagating in a system of carbon nanotubes inside an external magnetic field applied parallel to the nanotube axes and perpendicular to the direction of pulse propagation, is studied. The evolution of the electromagnetic field is classically derived using Maxwell’s equations.
About the authors
E. N. Galkina
Volgograd State Medical University; Laboratory of Nanotechnologies
Author for correspondence.
Email: galkina@mail.com
Russian Federation, Volgograd, 400131; Volgograd, 400010
M. B. Belonenko
Laboratory of Nanotechnologies; Volgograd State University
Email: galkina@mail.com
Russian Federation, Volgograd, 400010; Volgograd, 400062
R. A. Evdokimov
Volgograd State Agricultural University
Email: galkina@mail.com
Russian Federation, Volgograd, 400002
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