Maxwell equations and Doppler effect for an electron; Uravneniya Maksvella i ehffekt Dopplera dlya ehlektrona

Klenin, B A

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ETDEWEB / / Maxwell equations and Doppler effect for an electron; Uravneniya Maksvella i ehffekt Dopplera dlya ehlektrona

Maxwell equations and Doppler effect for an electron; Uravneniya Maksvella i ehffekt Dopplera dlya ehlektrona

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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.

Authors:

Klenin, B A

Publication Date:

Dec 31, 1992

Product Type:

Technical Report

Report Number:

JINR-R-2-92-162

Reference Number:

SCA: 662430; PA: AIX-25:007442; EDB-94:015865; ERA-19:007663; NTS-94:014848; SN: 94001126972

Resource Relation:

Other Information: PBD: 1992

Subject:

72 PHYSICS OF ELEMENTARY PARTICLES AND FIELDS; ELECTRONS; DOPPLER EFFECT; MAXWELL EQUATIONS; ELECTROMAGNETIC FIELDS; VACUUM STATES; 662430; PROPERTIES OF LEPTONS

OSTI ID:

10113808

Research Organizations:

Joint Inst. for Nuclear Research, Dubna (Russian Federation). Lab. of Nuclear Reactions

Country of Origin:

JINR

Language:

Russian

Other Identifying Numbers:

Other: ON: DE94611246; TRN: RU9306059007442

Availability:

OSTI; NTIS (US Sales Only); INIS

Submitting Site:

INIS

Size:

15 p.

Announcement Date:

Jun 30, 2005

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}
}

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