On the Physical Basis of Ultra-High-Frequency Electromagnetic Wave Gyroscopes Based on the Sagnac Effect

On the Physical Basis of Ultra-High-Frequency Electromagnetic Wave Gyroscopes Based on the Sagnac Effect

Background and Objectives: In the present paper the physical backgrounds of three types of microwave gyroscopes are presented. Materials and Methods: Using the relativistic approach the relations for output characteristics are derived to determine the main parameters and properties of the microwave...

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Main Authors: Plotnikov, Petr K., Melnikov, Leonid Arkad'evich, Mazhirina, Julia Aleksandrovna
Format: Article
Language:English
Published: Saratov State University 2020-08-01
Series:Известия Саратовского университета. Новая серия Серия: Физика
Subjects:
microwave gyro
sagnac effect
mitron
magnetron
slow waves
refraction index
slowing parameter
Online Access:https://fizika.sgu.ru/sites/fizika.sgu.ru/files/text-pdf/2020/08/fizika_2020_3_193-201.pdf
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spelling doaj-cc657d6f14b043f99556b543dc9a88a22020-11-25T02:02:17ZengSaratov State UniversityИзвестия Саратовского университета. Новая серия Серия: Физика1817-30202542-193X2020-08-0120319320110.18500/1817-3020-2020-20-3-193-201On the Physical Basis of Ultra-High-Frequency Electromagnetic Wave Gyroscopes Based on the Sagnac EffectPlotnikov, Petr K.0Melnikov, Leonid Arkad'evich1Mazhirina, Julia Aleksandrovna2Saratov State Technical University named after Yuri Gagarin, 77, Politechnicheskaya str., Saratov, 410054, RussiaSaratov State Technical University named after Yuri Gagarin, 77, Politechnicheskaya str., Saratov, 410054, RussiaSaratov State Technical University named after Yuri Gagarin, 77, Politechnicheskaya str., Saratov, 410054, RussiaBackground and Objectives: In the present paper the physical backgrounds of three types of microwave gyroscopes are presented. Materials and Methods: Using the relativistic approach the relations for output characteristics are derived to determine the main parameters and properties of the microwave gyro devices: voltage tuned magnetron (mitron) and microwave gyros based on the resonant cavity, and for microwave gyro with coil. Results and Conclusion: The results can be used to determine the main parameters of these devices and their properties. The calculated parameters are compared with the parameters and properties of Laser Gyros, Fiber Optics Gyros and with other types of gyros. The discussion of their realizations issues and subsequent applications at the moving objects is given.https://fizika.sgu.ru/sites/fizika.sgu.ru/files/text-pdf/2020/08/fizika_2020_3_193-201.pdfmicrowave gyrosagnac effectmitronmagnetronslow wavesrefraction indexslowing parameter
collection DOAJ
language English
format Article
sources DOAJ
author Plotnikov, Petr K.
Melnikov, Leonid Arkad'evich
Mazhirina, Julia Aleksandrovna
spellingShingle Plotnikov, Petr K.
Melnikov, Leonid Arkad'evich
Mazhirina, Julia Aleksandrovna
On the Physical Basis of Ultra-High-Frequency Electromagnetic Wave Gyroscopes Based on the Sagnac Effect
Известия Саратовского университета. Новая серия Серия: Физика
microwave gyro
sagnac effect
mitron
magnetron
slow waves
refraction index
slowing parameter
author_facet Plotnikov, Petr K.
Melnikov, Leonid Arkad'evich
Mazhirina, Julia Aleksandrovna
author_sort Plotnikov, Petr K.
title On the Physical Basis of Ultra-High-Frequency Electromagnetic Wave Gyroscopes Based on the Sagnac Effect
title_short On the Physical Basis of Ultra-High-Frequency Electromagnetic Wave Gyroscopes Based on the Sagnac Effect
title_full On the Physical Basis of Ultra-High-Frequency Electromagnetic Wave Gyroscopes Based on the Sagnac Effect
title_fullStr On the Physical Basis of Ultra-High-Frequency Electromagnetic Wave Gyroscopes Based on the Sagnac Effect
title_full_unstemmed On the Physical Basis of Ultra-High-Frequency Electromagnetic Wave Gyroscopes Based on the Sagnac Effect
title_sort on the physical basis of ultra-high-frequency electromagnetic wave gyroscopes based on the sagnac effect
publisher Saratov State University
series Известия Саратовского университета. Новая серия Серия: Физика
issn 1817-3020
2542-193X
publishDate 2020-08-01
description Background and Objectives: In the present paper the physical backgrounds of three types of microwave gyroscopes are presented. Materials and Methods: Using the relativistic approach the relations for output characteristics are derived to determine the main parameters and properties of the microwave gyro devices: voltage tuned magnetron (mitron) and microwave gyros based on the resonant cavity, and for microwave gyro with coil. Results and Conclusion: The results can be used to determine the main parameters of these devices and their properties. The calculated parameters are compared with the parameters and properties of Laser Gyros, Fiber Optics Gyros and with other types of gyros. The discussion of their realizations issues and subsequent applications at the moving objects is given.
topic microwave gyro
sagnac effect
mitron
magnetron
slow waves
refraction index
slowing parameter
url https://fizika.sgu.ru/sites/fizika.sgu.ru/files/text-pdf/2020/08/fizika_2020_3_193-201.pdf
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AT melnikovleonidarkadevich onthephysicalbasisofultrahighfrequencyelectromagneticwavegyroscopesbasedonthesagnaceffect
AT mazhirinajuliaaleksandrovna onthephysicalbasisofultrahighfrequencyelectromagneticwavegyroscopesbasedonthesagnaceffect
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