Helical Phase Structure of Radiation from an Electron in Circular Motion

Helical Phase Structure of Radiation from an Electron in Circular Motion

Abstract We theoretically show that a single free electron in circular motion radiates an electromagnetic wave possessing helical phase structure, which is closely related to orbital angular momentum carried by it. We experimentally demonstrate it by interference and double-slit diffraction experime...

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Main Authors: M. Katoh, M. Fujimoto, N. S. Mirian, T. Konomi, Y. Taira, T. Kaneyasu, M. Hosaka, N. Yamamoto, A. Mochihashi, Y. Takashima, K. Kuroda, A. Miyamoto, K. Miyamoto, S. Sasaki
Format: Article
Language:English
Published: Nature Publishing Group 2017-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-06442-2
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spelling doaj-dd792bd00149428eb46e03d212ed775e2020-12-08T02:35:01ZengNature Publishing GroupScientific Reports2045-23222017-07-01711810.1038/s41598-017-06442-2Helical Phase Structure of Radiation from an Electron in Circular MotionM. Katoh0M. Fujimoto1N. S. Mirian2T. Konomi3Y. Taira4T. Kaneyasu5M. Hosaka6N. Yamamoto7A. Mochihashi8Y. Takashima9K. Kuroda10A. Miyamoto11K. Miyamoto12S. Sasaki13Institute for Molecular Science, National Institutes of Natural SciencesInstitute for Molecular Science, National Institutes of Natural SciencesInstitute for Molecular Science, National Institutes of Natural SciencesInstitute for Molecular Science, National Institutes of Natural SciencesNational Institute of Advanced Industrial Science and Technology (AIST)Saga Light SourceNagoya UniversityNagoya UniversityNagoya UniversityNagoya UniversityUniversity of TokyoHiroshima UniversityHiroshima UniversityHiroshima UniversityAbstract We theoretically show that a single free electron in circular motion radiates an electromagnetic wave possessing helical phase structure, which is closely related to orbital angular momentum carried by it. We experimentally demonstrate it by interference and double-slit diffraction experiments on radiation from relativistic electrons in spiral motion. Our results indicate that photons carrying orbital angular momentum should be created naturally by cyclotron/synchrotron radiations or Compton scatterings in various situations in cosmic space. We propose promising laboratory vortex photon sources in various wavelengths ranging from radio wave to gamma-rays.https://doi.org/10.1038/s41598-017-06442-2
collection DOAJ
language English
format Article
sources DOAJ
author M. Katoh
M. Fujimoto
N. S. Mirian
T. Konomi
Y. Taira
T. Kaneyasu
M. Hosaka
N. Yamamoto
A. Mochihashi
Y. Takashima
K. Kuroda
A. Miyamoto
K. Miyamoto
S. Sasaki
spellingShingle M. Katoh
M. Fujimoto
N. S. Mirian
T. Konomi
Y. Taira
T. Kaneyasu
M. Hosaka
N. Yamamoto
A. Mochihashi
Y. Takashima
K. Kuroda
A. Miyamoto
K. Miyamoto
S. Sasaki
Helical Phase Structure of Radiation from an Electron in Circular Motion
Scientific Reports
author_facet M. Katoh
M. Fujimoto
N. S. Mirian
T. Konomi
Y. Taira
T. Kaneyasu
M. Hosaka
N. Yamamoto
A. Mochihashi
Y. Takashima
K. Kuroda
A. Miyamoto
K. Miyamoto
S. Sasaki
author_sort M. Katoh
title Helical Phase Structure of Radiation from an Electron in Circular Motion
title_short Helical Phase Structure of Radiation from an Electron in Circular Motion
title_full Helical Phase Structure of Radiation from an Electron in Circular Motion
title_fullStr Helical Phase Structure of Radiation from an Electron in Circular Motion
title_full_unstemmed Helical Phase Structure of Radiation from an Electron in Circular Motion
title_sort helical phase structure of radiation from an electron in circular motion
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-07-01
description Abstract We theoretically show that a single free electron in circular motion radiates an electromagnetic wave possessing helical phase structure, which is closely related to orbital angular momentum carried by it. We experimentally demonstrate it by interference and double-slit diffraction experiments on radiation from relativistic electrons in spiral motion. Our results indicate that photons carrying orbital angular momentum should be created naturally by cyclotron/synchrotron radiations or Compton scatterings in various situations in cosmic space. We propose promising laboratory vortex photon sources in various wavelengths ranging from radio wave to gamma-rays.
url https://doi.org/10.1038/s41598-017-06442-2
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