Investigation of the dependence of the shift of the ferromagnetic resonance line on the parameters of piezoelectric

In this research, we study the dependence of the shift of the ferromagnetic resonance line in layered structures based on yttrium iron garnet (YIG) on a gadolinium gallium garnet (GGG) substrate, on the magnitude of the external electric field and on the parameters of various piezoelectrics (plumbum zirconate titanate (PZT), Langasite)). The intense development of modern microwave technology leads to the study and creation of new layered structures of materials with different physical properties that can be combined: magnetic and ferroelectric, magnetic and semiconductor, etc. As a result of the study, we obtained the dependences of the shifts of the ferromagnetic resonance line on the parameters of piezoelectrics (mainly, on the magnitude of the dielectric constant) in the layered structures YIG-GGGPZT, YIG-GGG-Langasite. The obtained results show that the ferromagnetic resonance line shift effect can be used to develop new controllable microwave devices, the operating principle of which is based on the electronic tuning of resonance characteristics by means of an electric field and the choice of the type of piezoelectric.

1. Bichurin M. I., Petrov V. M., Petrov R. V., Tatarenko A. S. Magnetoelectric Composites. Singapore, Pan Stanford Publishing Pte. Ltd., 2019. 280 p.

2. Petrov V. M., Bichurin M. I., Saplev A. F., Tatarenko A. S., Lobekin V. N. Electric field induced broadening of magnetic resonance line in ferrite/piezoelectric bilayer // Journal of Applied Physics. 2017. 121(22). 224103. DOI: 10.1063/1.4985069

3. Lobekin V. N., Snisarenko D. V., Tatarenko A. S., Bichurin M. I. Issledovanie magnitoelektricheskogo SVCh ventilia na osnove ferrit-p'ezoelektricheskikh struktur [Research of a magnetoelectric microwave isolator based on ferrite-piezoelectric structures] // Vestnik NovSU. 2018. 1(107). 74-76.

4. Bichurin M. I., Petrov V. M., Filippov D. A., Srinivasan G. Magnitoelektricheskii effekt v kompozitsionnykh materialakh [Magnetoelectric effect in composite materials]. Veliky Novgorod, NovSU Publ., 2005. 226 p.

5. Khavanova M. A., Iukhno I. M., Lobekin V. N., Kuz'min E. V., Petrov R. V. Issledovanie kharakteristik pechatnoi antenny na osnove magnitoelektricheskikh kompozitov [Research of characteristics of patch antenna based on magnetoelectric composites] // 28-ia Mezhdunarodnaia Krymskaia konferentsiia «SVCh-tekhnika i telekommunikatsionnye tekhnologii» (KryMiKo'2018) [Proc.28 Int. Crimean Conf. “Microwave and telecommunication technology” (CriMiCo’2018)]. Sevastopol, Sevastopol State University Publ., 2018. 646-651.

6. Lobekin V. N., Bichurin M. I. Modelirovanie metastruktury na osnove splitkol'tsevykh rezonatorov s vkliucheniem ferritovykh elementov [Modeling of a metastructure based on split-ring resonators including the ferrite elements] // Vestnik NovSU. 2022. 3(128). 91-95. DOI: 10.34680/2076-8052.2022.3(128).91-95

7. Lobekin V. N., Kafarov R. G., Tatarenko A. S., Murav'ev V. E. Issledovanie sviazi rezonatorov mikrovolnovogo magnitoelektricheskogo polosovogo fil'tra s pomoshch'iu komp'iuternogo modelirovaniia [Research of the coupling of resonators of a microwave magnetoelectric band-pass filter using computer simulation] // Vestnik NovSU. 2022. 3(128). 96-101. DOI: 10.34680/2076-8052.2022.3(128).96-101

8. Lavrent'eva D. V., Tatarenko A. S. Magnitoelektricheskii upravliaemyi koplanarnyi SVCh ventil'-atteniuator [Controlled magnetoelectric coplanar microwave isolator-attenuator] // Vestnik NovSU. 2014. 81. 55-58.

9. Tatarenko A. S. Mikropoloskovaia SVCh antenna na kompozitnoi magnitoelektricheskoi podlozhke [A microwave microstrip antenna on a substrate of magnetoelectric composite] // Vestnik NovSU. 2013. 75(1). 37-39.

10. Tatarenko A. S., Bichurin M. I., Filippov A. V., Srinivasan G. SVCh fazovrashchatel' na osnove ferrit-p'ezoelektricheskikh kompozitsionnykh materialov [SHF phaserotator on basis of ferrite-piezo-electric composite materials] // Vestnik NovSU. 2004. 28. 156-158.

11. Tatarenko A. S., Bichurin M. I., Srinivasan G. Magnitoelektricheskie fil'truiushchie SVCh ustroistva [The SHF magnetoelectric filter device] // Vestnik NovSU. 2004. 26. 168-172.