Abstract
On the basis of the Maxwell equations for the elecromagnetic field in vacuum and the Newton-Lorentz equation of motion the Doppler effect for an electron is received, characterizing the electron wave properties, which results relativistic Lorentz transformations of the special relativity theory. 4 refs.
Citation Formats
Klenin, B A.
Maxwell equations and Doppler effect for an electron; Uravneniya Maksvella i ehffekt Dopplera dlya ehlektrona.
JINR: N. p.,
1992.
Web.
Klenin, B A.
Maxwell equations and Doppler effect for an electron; Uravneniya Maksvella i ehffekt Dopplera dlya ehlektrona.
JINR.
Klenin, B A.
1992.
"Maxwell equations and Doppler effect for an electron; Uravneniya Maksvella i ehffekt Dopplera dlya ehlektrona."
JINR.
@misc{etde_10113808,
title = {Maxwell equations and Doppler effect for an electron; Uravneniya Maksvella i ehffekt Dopplera dlya ehlektrona}
author = {Klenin, B A}
abstractNote = {On the basis of the Maxwell equations for the elecromagnetic field in vacuum and the Newton-Lorentz equation of motion the Doppler effect for an electron is received, characterizing the electron wave properties, which results relativistic Lorentz transformations of the special relativity theory. 4 refs.}
place = {JINR}
year = {1992}
month = {Dec}
}
title = {Maxwell equations and Doppler effect for an electron; Uravneniya Maksvella i ehffekt Dopplera dlya ehlektrona}
author = {Klenin, B A}
abstractNote = {On the basis of the Maxwell equations for the elecromagnetic field in vacuum and the Newton-Lorentz equation of motion the Doppler effect for an electron is received, characterizing the electron wave properties, which results relativistic Lorentz transformations of the special relativity theory. 4 refs.}
place = {JINR}
year = {1992}
month = {Dec}
}