

Laser Optics & Photonics and Atomic & Plasma Science 2018
J u l y 1 6 - 1 7 , 2 0 1 8
P r a g u e , C z e c h R e p u b l i c
Page 98
American Journal of Computer Science and Information Technology
ISSN: 2349-3917
E u r o S c i C o n J o i n t E v e n t o n
Laser Optics & Photonics and
Atomic & Plasma Science
S
urface electromagnetic waves (SEV) have been known for 117 years. Currently, they are widely used in optical and investigated
at THz frequencies in the area which form the basis of the current status and future development of nanotechnologies
(plasmonics). The history of the research of electromagnetic waves that are different in nature from spatial Maxwell-Hertz
electromagnetic waves and emerging on the boundary of two media with different dielectric properties, developed from universal
acceptance in the early 20th century, the concept of SEV Sommerfeld- Zenneck, until her categorical denial by middle-century,
the revival of interest in 60 years and experimental confirmation by the beginning of the 21
st
century. In Russia, the theory of
SEV developed intensively, and experimental proof of the existence of SEV was given: waves of ultrahigh frequencies detected
and investigated in the laboratory in the magnetized semiconductors, on salt (w h Ocean) water, gas plasma and metals; were
observed
in vivo
. SEV exist at frequencies up to optical. To date, they are best explored in the ultra high frequency range and
optics (plasmon- polaritons) .Extended field studies in the field of high, low and ultralow frequencies holds exciting prospects:
(OTH) radar, new channels of global telecommunications, monitoring the surface of oceans, weather management, wireless
transfer of energy flows on the surface of Earth and the bottom edge of the ionosphere from continent to continent. SEV have
dramatic past, pragmatic present and a great future.
contyr@yandex.ruSurface electromagnrtic waves: past, present, future
Vladimir Datsko
Institute of Applied Geophisics, Russia
Am J Compt Sci Inform Technol 2018, Volume 6
DOI: 10.21767/2349-3917-C1-003