3D Meander Line Slow Wave Structure for W-band TWT

School of Engineering

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3D Meander Line Slow Wave Structure for Wband TWT
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Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSN › Conference contribution/Paper › peer-review

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3D Meander Line Slow Wave Structure for W-band TWT. / Socuellamos, Juan ; Letizia, Rosa; Dionisio, Roberto et al.

Proceedings 21th International Vacuum Electronics Conference. Springer, 2020.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSN › Conference contribution/Paper › peer-review

Harvard

Socuellamos, J , Letizia, R, Dionisio, R & Paoloni, C 2020, 3D Meander Line Slow Wave Structure for W-band TWT. in Proceedings 21th International Vacuum Electronics Conference. Springer, International Vacuum Electronics Conference (IVEC 2020), 19/10/20.

APA

Socuellamos, J., Letizia, R., Dionisio, R., & Paoloni, C. (Accepted/In press). 3D Meander Line Slow Wave Structure for W-band TWT. In Proceedings 21th International Vacuum Electronics Conference Springer.

Vancouver

Socuellamos J , Letizia R, Dionisio R, Paoloni C. 3D Meander Line Slow Wave Structure for W-band TWT. In Proceedings 21th International Vacuum Electronics Conference. Springer. 2020

Author

Socuellamos, Juan ; Letizia, Rosa ; Dionisio, Roberto et al. / 3D Meander Line Slow Wave Structure for W-band TWT. Proceedings 21th International Vacuum Electronics Conference. Springer, 2020.

Bibtex

@inproceedings{1b4106a9fd97406d98906050bea01fc5,

title = "3D Meander Line Slow Wave Structure for W-band TWT",

abstract = "Planar meander lines have been recently studiedin detail due to their favorable properties as slow wavestructures for traveling wave tubes. However, theinteraction of a cylindrical electron beam with this kind ofstructures is not efficient enough in order to achieve theoutput power levels required for space applications at Wband. A new design, suitable and optimized for thecylindrical beam geometry, is introduced in this work. Coldand large signal results are presented in the paper.",

author = "Juan Socuellamos and Rosa Letizia and Roberto Dionisio and Claudio Paoloni",

year = "2020",

month = jan,

day = "29",

language = "English",

isbn = "9783030316761",

booktitle = "Proceedings 21th International Vacuum Electronics Conference",

publisher = "Springer",

note = "International Vacuum Electronics Conference (IVEC 2020) ; Conference date: 19-10-2020 Through 22-10-2020",

}

RIS

TY - GEN

T1 - 3D Meander Line Slow Wave Structure for W-band TWT

AU - Socuellamos, Juan

AU - Letizia, Rosa

AU - Dionisio, Roberto

AU - Paoloni, Claudio

PY - 2020/1/29

Y1 - 2020/1/29

N2 - Planar meander lines have been recently studiedin detail due to their favorable properties as slow wavestructures for traveling wave tubes. However, theinteraction of a cylindrical electron beam with this kind ofstructures is not efficient enough in order to achieve theoutput power levels required for space applications at Wband. A new design, suitable and optimized for thecylindrical beam geometry, is introduced in this work. Coldand large signal results are presented in the paper.

AB - Planar meander lines have been recently studiedin detail due to their favorable properties as slow wavestructures for traveling wave tubes. However, theinteraction of a cylindrical electron beam with this kind ofstructures is not efficient enough in order to achieve theoutput power levels required for space applications at Wband. A new design, suitable and optimized for thecylindrical beam geometry, is introduced in this work. Coldand large signal results are presented in the paper.

M3 - Conference contribution/Paper

SN - 9783030316761

BT - Proceedings 21th International Vacuum Electronics Conference

PB - Springer

T2 - International Vacuum Electronics Conference (IVEC 2020)

Y2 - 19 October 2020 through 22 October 2020

ER -

Research

Electronic data