COMPARATIVE ANALYSIS OF TE01 MODE EXCITATION METHODS IN CIRCULAR WAVEGUIDES

Standard

COMPARATIVE ANALYSIS OF TE01 MODE EXCITATION METHODS IN CIRCULAR WAVEGUIDES: chapter in book. / Letavin, D. A.; Chechetkin, V. A.; Mitelman, Yu E.
ADVANCES IN INFORMATION TECHNOLOGIES, TELECOMMUNICATION, AND RADIOELECTRONICS: сборник статей. ред. / S. Kumkov; S. Shabunin; S. Singellakis. Cham: Springer, 2020. стр. 169-177 (Сер. Innovation and Discovery in Russian Science and Engineering (IDRSE)).

Результаты исследований: Глава в книге, отчете, сборнике статей › Глава › Рецензирование

Harvard

Letavin, DA , Chechetkin, VA & Mitelman, YE 2020, COMPARATIVE ANALYSIS OF TE01 MODE EXCITATION METHODS IN CIRCULAR WAVEGUIDES: chapter in book. в S Kumkov, S Shabunin & S Singellakis (ред.), ADVANCES IN INFORMATION TECHNOLOGIES, TELECOMMUNICATION, AND RADIOELECTRONICS: сборник статей. Сер. Innovation and Discovery in Russian Science and Engineering (IDRSE), Springer, Cham, стр. 169-177. https://doi.org/10.1007/978-3-030-37514-0_16

APA

Letavin, D. A., Chechetkin, V. A., & Mitelman, Y. E. (2020). COMPARATIVE ANALYSIS OF TE01 MODE EXCITATION METHODS IN CIRCULAR WAVEGUIDES: chapter in book. в S. Kumkov, S. Shabunin, & S. Singellakis (Ред.), ADVANCES IN INFORMATION TECHNOLOGIES, TELECOMMUNICATION, AND RADIOELECTRONICS: сборник статей (стр. 169-177). (Сер. Innovation and Discovery in Russian Science and Engineering (IDRSE)). Springer. https://doi.org/10.1007/978-3-030-37514-0_16

Vancouver

Letavin DA , Chechetkin VA , Mitelman YE. COMPARATIVE ANALYSIS OF TE01 MODE EXCITATION METHODS IN CIRCULAR WAVEGUIDES: chapter in book. в Kumkov S, Shabunin S, Singellakis S, Редакторы, ADVANCES IN INFORMATION TECHNOLOGIES, TELECOMMUNICATION, AND RADIOELECTRONICS: сборник статей. Cham: Springer. 2020. стр. 169-177. (Сер. Innovation and Discovery in Russian Science and Engineering (IDRSE)). doi: 10.1007/978-3-030-37514-0_16

Author

Letavin, D. A. ; Chechetkin, V. A. ; Mitelman, Yu E. / COMPARATIVE ANALYSIS OF TE01 MODE EXCITATION METHODS IN CIRCULAR WAVEGUIDES : chapter in book. ADVANCES IN INFORMATION TECHNOLOGIES, TELECOMMUNICATION, AND RADIOELECTRONICS: сборник статей. Редактор / S. Kumkov ; S. Shabunin ; S. Singellakis. Cham : Springer, 2020. стр. 169-177 (Сер. Innovation and Discovery in Russian Science and Engineering (IDRSE)).

BibTeX

@inbook{218dad30be07487593e204484d9c4d9f,

title = "COMPARATIVE ANALYSIS OF TE01 MODE EXCITATION METHODS IN CIRCULAR WAVEGUIDES: chapter in book",

abstract = "The axisymmetric magnetic modes of the circular waveguide are known for the anomaly of their low attenuation at higher frequencies. This is due to the low intensity of the electromagnetic field near the walls of the waveguide. Moreover, because of this fact, it is very difficult to excite these modes by common methods like using the electric and magnetic dipoles, slots, loops, etc. Insertion of such devices into the waveguide usually leads to distortion in the required mode field structure and, thus, inability of its excitation. The second problem is the fact that the axisymmetric magnetic modes are not the fundamental ones of the circular waveguide; and this demands the necessity of mode filtering and the complex analysis of the excitation devices. The main goal of this article is to describe and compare the effectiveness of various methods for excitation of the TE01 mode in a circular waveguide. The advantages of the mode with respect to other types of waves propagating in the circular waveguide are discussed briefly. Each of the devices under consideration was modelled and the simulation results are given. Advantages and disadvantages of the devices are considered. Then, a comparative analysis of results of the numerical simulation is given.",

author = "Letavin, {D. A.} and Chechetkin, {V. A.} and Mitelman, {Yu E}",

year = "2020",

doi = "10.1007/978-3-030-37514-0_16",

language = "English",

isbn = "978-3-030-37513-3",

series = "Сер. Innovation and Discovery in Russian Science and Engineering (IDRSE)",

publisher = "Springer",

pages = "169--177",

editor = "Kumkov, {S. } and S. Shabunin and S. Singellakis",

booktitle = "ADVANCES IN INFORMATION TECHNOLOGIES, TELECOMMUNICATION, AND RADIOELECTRONICS",

address = "Germany",

}

RIS

TY - CHAP

T1 - COMPARATIVE ANALYSIS OF TE01 MODE EXCITATION METHODS IN CIRCULAR WAVEGUIDES

T2 - chapter in book

AU - Letavin, D. A.

AU - Chechetkin, V. A.

AU - Mitelman, Yu E

PY - 2020

Y1 - 2020

N2 - The axisymmetric magnetic modes of the circular waveguide are known for the anomaly of their low attenuation at higher frequencies. This is due to the low intensity of the electromagnetic field near the walls of the waveguide. Moreover, because of this fact, it is very difficult to excite these modes by common methods like using the electric and magnetic dipoles, slots, loops, etc. Insertion of such devices into the waveguide usually leads to distortion in the required mode field structure and, thus, inability of its excitation. The second problem is the fact that the axisymmetric magnetic modes are not the fundamental ones of the circular waveguide; and this demands the necessity of mode filtering and the complex analysis of the excitation devices. The main goal of this article is to describe and compare the effectiveness of various methods for excitation of the TE01 mode in a circular waveguide. The advantages of the mode with respect to other types of waves propagating in the circular waveguide are discussed briefly. Each of the devices under consideration was modelled and the simulation results are given. Advantages and disadvantages of the devices are considered. Then, a comparative analysis of results of the numerical simulation is given.

AB - The axisymmetric magnetic modes of the circular waveguide are known for the anomaly of their low attenuation at higher frequencies. This is due to the low intensity of the electromagnetic field near the walls of the waveguide. Moreover, because of this fact, it is very difficult to excite these modes by common methods like using the electric and magnetic dipoles, slots, loops, etc. Insertion of such devices into the waveguide usually leads to distortion in the required mode field structure and, thus, inability of its excitation. The second problem is the fact that the axisymmetric magnetic modes are not the fundamental ones of the circular waveguide; and this demands the necessity of mode filtering and the complex analysis of the excitation devices. The main goal of this article is to describe and compare the effectiveness of various methods for excitation of the TE01 mode in a circular waveguide. The advantages of the mode with respect to other types of waves propagating in the circular waveguide are discussed briefly. Each of the devices under consideration was modelled and the simulation results are given. Advantages and disadvantages of the devices are considered. Then, a comparative analysis of results of the numerical simulation is given.

UR - https://www.elibrary.ru/item.asp?id=44473667

U2 - 10.1007/978-3-030-37514-0_16

DO - 10.1007/978-3-030-37514-0_16

M3 - Chapter

SN - 978-3-030-37513-3

T3 - Сер. Innovation and Discovery in Russian Science and Engineering (IDRSE)

SP - 169

EP - 177

BT - ADVANCES IN INFORMATION TECHNOLOGIES, TELECOMMUNICATION, AND RADIOELECTRONICS

A2 - Kumkov, S.

A2 - Shabunin, S.

A2 - Singellakis, S.

PB - Springer

CY - Cham

ER -

ID: 20442387