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Radiation of a Solitary Polarization Pulse Moving at the Speed of Light. / Архипов, Ростислав Михайлович; Архипов, Михаил Викторович; Пахомов, Антон Владимирович; Дьячкова, Ольга Олеговна; Розанов, Николай Николаевич.

In: JETP Letters, Vol. 117, No. 8, 2023, p. 574–582.

Research output: Contribution to journalArticlepeer-review

Harvard

Архипов, РМ, Архипов, МВ, Пахомов, АВ, Дьячкова, ОО & Розанов, НН 2023, 'Radiation of a Solitary Polarization Pulse Moving at the Speed of Light', JETP Letters, vol. 117, no. 8, pp. 574–582. https://doi.org/10.1134/S0021364023600763

APA

Архипов, Р. М., Архипов, М. В., Пахомов, А. В., Дьячкова, О. О., & Розанов, Н. Н. (2023). Radiation of a Solitary Polarization Pulse Moving at the Speed of Light. JETP Letters, 117(8), 574–582. https://doi.org/10.1134/S0021364023600763

Vancouver

Архипов РМ, Архипов МВ, Пахомов АВ, Дьячкова ОО, Розанов НН. Radiation of a Solitary Polarization Pulse Moving at the Speed of Light. JETP Letters. 2023;117(8):574–582. https://doi.org/10.1134/S0021364023600763

Author

Архипов, Ростислав Михайлович ; Архипов, Михаил Викторович ; Пахомов, Антон Владимирович ; Дьячкова, Ольга Олеговна ; Розанов, Николай Николаевич. / Radiation of a Solitary Polarization Pulse Moving at the Speed of Light. In: JETP Letters. 2023 ; Vol. 117, No. 8. pp. 574–582.

BibTeX

@article{fdc2c691e056464c97012eec520d11bb,
title = "Radiation of a Solitary Polarization Pulse Moving at the Speed of Light",
abstract = "Photons have zero rest mass and always travel at the speed of light in a vacuum, but have no dipole moment. Atoms and molecules, which may have a constant or variable dipole moment, have mass and therefore cannot move at or above the speed of light. As a result, the radiation from such systems moving at the velocity of light was not considered. However, it is possible to create many artificial objects (light spots, effective charges, current pulses, etc.) that can travel at the speed of light and even exceed it. In this case, they become a source of electromagnetic radiation. In this work, the radiation of a solitary polarization pulse that travels at the speed of light and has a variable or constant amplitude is discussed. It is shown that if the amplitude does not change, then such an object does not radiate outward, i.e., the field emitted by it remains completely localized inside the moving polarization pulse. If the amplitude changes over time, then it begins to radiate backwards. In this case, unipolar pulses of an unusual shape, such as a rectangular one, can be obtained.",
author = "Архипов, {Ростислав Михайлович} and Архипов, {Михаил Викторович} and Пахомов, {Антон Владимирович} and Дьячкова, {Ольга Олеговна} and Розанов, {Николай Николаевич}",
year = "2023",
doi = "10.1134/S0021364023600763",
language = "русский",
volume = "117",
pages = "574–582",
journal = "JETP Letters",
issn = "0021-3640",
publisher = "МАИК {"}Наука/Интерпериодика{"}",
number = "8",

}

RIS

TY - JOUR

T1 - Radiation of a Solitary Polarization Pulse Moving at the Speed of Light

AU - Архипов, Ростислав Михайлович

AU - Архипов, Михаил Викторович

AU - Пахомов, Антон Владимирович

AU - Дьячкова, Ольга Олеговна

AU - Розанов, Николай Николаевич

PY - 2023

Y1 - 2023

N2 - Photons have zero rest mass and always travel at the speed of light in a vacuum, but have no dipole moment. Atoms and molecules, which may have a constant or variable dipole moment, have mass and therefore cannot move at or above the speed of light. As a result, the radiation from such systems moving at the velocity of light was not considered. However, it is possible to create many artificial objects (light spots, effective charges, current pulses, etc.) that can travel at the speed of light and even exceed it. In this case, they become a source of electromagnetic radiation. In this work, the radiation of a solitary polarization pulse that travels at the speed of light and has a variable or constant amplitude is discussed. It is shown that if the amplitude does not change, then such an object does not radiate outward, i.e., the field emitted by it remains completely localized inside the moving polarization pulse. If the amplitude changes over time, then it begins to radiate backwards. In this case, unipolar pulses of an unusual shape, such as a rectangular one, can be obtained.

AB - Photons have zero rest mass and always travel at the speed of light in a vacuum, but have no dipole moment. Atoms and molecules, which may have a constant or variable dipole moment, have mass and therefore cannot move at or above the speed of light. As a result, the radiation from such systems moving at the velocity of light was not considered. However, it is possible to create many artificial objects (light spots, effective charges, current pulses, etc.) that can travel at the speed of light and even exceed it. In this case, they become a source of electromagnetic radiation. In this work, the radiation of a solitary polarization pulse that travels at the speed of light and has a variable or constant amplitude is discussed. It is shown that if the amplitude does not change, then such an object does not radiate outward, i.e., the field emitted by it remains completely localized inside the moving polarization pulse. If the amplitude changes over time, then it begins to radiate backwards. In this case, unipolar pulses of an unusual shape, such as a rectangular one, can be obtained.

UR - https://www.mendeley.com/catalogue/18fa5014-dfc3-3216-bac9-d052a7d096b3/

U2 - 10.1134/S0021364023600763

DO - 10.1134/S0021364023600763

M3 - статья

VL - 117

SP - 574

EP - 582

JO - JETP Letters

JF - JETP Letters

SN - 0021-3640

IS - 8

ER -

ID: 104835049