Zhurnal Radioelektroniki - Journal of Radio Electronics. ISSN 1684-1719. 2020. No. 2
Contents

Full text in Russian (pdf)

Russian page
 

DOI  10.30898/1684-1719.2020.2.9

UDC 621.391, 621.396

 

Orotron with two-row periodic structure in the short part of millimeter wavelength range

 

E. A. Myasin, V. V. Evdokimov, A. Yu. Il’in, A. N. Solov’ev

 Fryazino Branch of Kotelnikov Institute of Radioengineering and Electronics of Russian Academy of Sciences, Vvedensky Sq. 1, Fryazino Moscow region, 141120, Russia

 

The paper is received on February 5, 2020

 

Abstract. Experimental results of two-row periodic structure (TRPS) orotron investigations are presented. The 7-th focus spherocylindrical mirror is used in open resonator in order to generate the high level output pulse power (tenths of Watts) in 215 – 230 GHz frequency range. The theoretical analysis of effective generation regimes in this orotron configuration confirmed the possibility of OR with TRPS properties transformation in specific TRPS height to wavelength relations.

Key words: orotron, open resonator, multi focus spherocylindrical mirrors, two-row periodic structure.

References

1. Myasin E.A. Orotron. Patent RF ¹ 2634304. Patent holder: Kotelnikov Institute of Radioengineering and Electronics of Russian Academy of Sciences. Priority  10.06.2016. Registrtion date 25.10.2017. (In Russian)

2. Myasin E.A., Solov`ev A.N. Unknown peculiarity of the orotron two row periodic structure. 3rd Intern. Conference Terahertz and Microwave Radiation: Generation, Detection and Applications” - Tera-2018. Nizhny Novgorod, Russia, October 22-25, 2018. Program Conf. P.1.9

3. Andreev Yu.V., Myasin E.A. A calculation program for calculating the electronic efficiency of an orotron with a single-row or two-row periodic structure on a plane mirror of an open resonator with focusing mirrors of various geometries. Registration certificate for a computer program No. 2016613929. Application No. 2016611291, February 17, 2016. State registration in the Computer Software Registry on April 11, 2016. (In Russian)

4. Tseytlin M.B., Myasin E.A., Nutovich L.M. Optimization of orotron parameters based on approximate analytical theory. Journal of Communication Technology and Electronics. 1989. Vol.33. No.3. P.580-584. (In Russian)

5. Rusin F.S., Bogomolov G.D. Kolebatel'naya sistema orotrona [Orotron oscillation system]. In Elektronika bol'shikh moshchnostey [High Power Electronics]. Collected articles No.5. P.38. Moscow. Nauka Publ. 1968. (In Russian)

6. Myasin E.A., Solov’ev A.N. Analysis of the electromagnetic characteristics of open resonators formed by a multifocus spherical mirror and a plane mirror when the wavelength is 1 mm. Journal of Communication Technology and Electronics. 2018. Vol. 63. No.7. P.732-742. DOI: 10.1134/S1064226918070136

7. Kurushin A.A., Plastikov A.N. Proyektirovaniye SVCH ustroystv v srede CST Microwave Studio [Designing microwave devices in CST Microwave Studio]. Moscow. Moscow Power Engineering Institute Publ. 2010. 160 p. (In Russian)

 

For citation:

Myasin E.A., Evdokimov V.V., Il’in A.Yu., Solov’ev A.N. Orotron with two-row periodic structure in the short part of millimeter wavelength range. Zhurnal Radioelektroniki - Journal of Radio Electronics. 2020. No. 2. Available at http://jre.cplire.ru/jre/feb20/9/text.pdf

DOI  10.30898/1684-1719.2020.2.9