Electron guiding in macroscopic borosilicate capillaries with large bending angles

Electron guiding in macroscopic borosilicate capillaries with large bending angles

This work presents experiments about the transmission of electrons with an energy of around 15 keV with beam currents up to 20 µA through macroscopic glass capillaries. A systematic study was conducted to experimentally investigate the transmission of electrons through borosilicate glass capillaries...

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Published in:Scientific reports Vol. 11; no. 1; p. 8345
Main Authors: Nguyen, Hai-Dang, Wulfkühler, Jan-Philipp, Heisig, Jörg, Tajmar, Martin
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 16-04-2021
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Subjects:
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639/766
Atoms & subatomic particles
Capillaries
Electrodes
Energy
Experiments
Humanities and Social Sciences
multidisciplinary
Science
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Abstract This work presents experiments about the transmission of electrons with an energy of around 15 keV with beam currents up to 20 µA through macroscopic glass capillaries. A systematic study was conducted to experimentally investigate the transmission of electrons through borosilicate glass capillaries with curve angles of 90°, 180°, 270° and 360° for the first time. The focus of the work was to identify the conditions under which the injected electron current is transmitted through the capillary. It was also shown that the transmission process in the macroscopic capillaries can be optically observed by cathodoluminescence—the interaction of electrons with the capillary surface causes locally a blue glow. Different distinctive “glow states” were observed and are found to correlate with different states of electron transmission.
AbstractList This work presents experiments about the transmission of electrons with an energy of around 15 keV with beam currents up to 20 µA through macroscopic glass capillaries. A systematic study was conducted to experimentally investigate the transmission of electrons through borosilicate glass capillaries with curve angles of 90°, 180°, 270° and 360° for the first time. The focus of the work was to identify the conditions under which the injected electron current is transmitted through the capillary. It was also shown that the transmission process in the macroscopic capillaries can be optically observed by cathodoluminescence-the interaction of electrons with the capillary surface causes locally a blue glow. Different distinctive "glow states" were observed and are found to correlate with different states of electron transmission.
This work presents experiments about the transmission of electrons with an energy of around 15 keV with beam currents up to 20 µA through macroscopic glass capillaries. A systematic study was conducted to experimentally investigate the transmission of electrons through borosilicate glass capillaries with curve angles of 90°, 180°, 270° and 360° for the first time. The focus of the work was to identify the conditions under which the injected electron current is transmitted through the capillary. It was also shown that the transmission process in the macroscopic capillaries can be optically observed by cathodoluminescence—the interaction of electrons with the capillary surface causes locally a blue glow. Different distinctive “glow states” were observed and are found to correlate with different states of electron transmission.
Abstract This work presents experiments about the transmission of electrons with an energy of around 15 keV with beam currents up to 20 µA through macroscopic glass capillaries. A systematic study was conducted to experimentally investigate the transmission of electrons through borosilicate glass capillaries with curve angles of 90°, 180°, 270° and 360° for the first time. The focus of the work was to identify the conditions under which the injected electron current is transmitted through the capillary. It was also shown that the transmission process in the macroscopic capillaries can be optically observed by cathodoluminescence—the interaction of electrons with the capillary surface causes locally a blue glow. Different distinctive “glow states” were observed and are found to correlate with different states of electron transmission.
ArticleNumber 8345
Author Nguyen, Hai-Dang
Wulfkühler, Jan-Philipp
Heisig, Jörg
Tajmar, Martin
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  surname: Nguyen
  fullname: Nguyen, Hai-Dang
  organization: Institute of Aerospace Engineering, Technische Universität Dresden
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  givenname: Jan-Philipp
  surname: Wulfkühler
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  givenname: Martin
  surname: Tajmar
  fullname: Tajmar, Martin
  email: martin.tajmar@tu-dresden.de
  organization: Institute of Aerospace Engineering, Technische Universität Dresden
BackLink https://www.ncbi.nlm.nih.gov/pubmed/33863930$$D View this record in MEDLINE/PubMed
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CitedBy_id crossref_primary_10_7498_aps_73_20240301
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crossref_primary_10_31857_S1028096023030111
crossref_primary_10_1116_6_0002281
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Snippet This work presents experiments about the transmission of electrons with an energy of around 15 keV with beam currents up to 20 µA through macroscopic glass...
This work presents experiments about the transmission of electrons with an energy of around 15 keV with beam currents up to 20 µA through macroscopic glass...
Abstract This work presents experiments about the transmission of electrons with an energy of around 15 keV with beam currents up to 20 µA through macroscopic...
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StartPage 8345
SubjectTerms 639/301
639/766
Atoms & subatomic particles
Capillaries
Electrodes
Energy
Experiments
Humanities and Social Sciences
multidisciplinary
Science
Science (multidisciplinary)
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Title Electron guiding in macroscopic borosilicate capillaries with large bending angles
URI https://link.springer.com/article/10.1038/s41598-021-87156-4
https://www.ncbi.nlm.nih.gov/pubmed/33863930
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