G.A. Sharapov − Engineer of the 1st category of Laboratory O-41.3.5,

Post-graduate Student of the base department of JSC «CNIRTI named after Academician A.I. Berga»

A.G. Bocharov − Engineer of the 3rd category of Laboratory O-41.3.5,

Post-graduate Student of RTU MIREA

E.V. Kalyabin −Ph.D. (Eng.), Scientific Secretary 

S.V. Yakubovskiy − Dr.Sc. (Eng.), Head of the Department 

The modern electronic component does not allow the creation of electronic warfare systems that cannot operate in a wide frequency band with a high speed parameter. The acousto-optic modulator will make it possible to create radio-frequency devices with parameters unattainable for traditional electronics, due to the fact that photons, unlike electrons, do not have rest mass and charge, which gives potentially ultra-high performance and unique noise immunity.

To create a mathematical apparatus for improving the characteristics of an acousto-optoelectronic receiver through the use of new types of crystals as part of an acousto-optic modulator for electronic warfare systems and complexes.

Conclusion. The calculation of the bandwidth, resolution and time of passage of an acoustic wave through the light field of an acousto-optic modulator based on diamond structures, which is a part of aircraft and ground-based electronic warfare systems and complexes, using an acoustooptoelectronic receiver.

The use of new diamond crystals as part of the acousto-optic modulator will improve the parameters of the acoustooptoelectronic receiver, which in turn will lead to an improvement in the characteristics of airborne and ground-based electronic warfare systems. The results obtained will allow you to calculate. Analytical expressions are obtained for the characteristics of an acousto-optic modulator based on diamond structures, as well as a comparative assessment with the existing modulators based on LiNbO3 crystals.

Sharapov G.A., Bocharov A.G., Kalyabin E.V., Yakubovsky S.V. A method for increasing the efficiency of aircraft and ground-based electronic warfare systems and complexes using an acoustooptoelectronic receiver. Radiotekhnika. 2020. V. 84. № 10(20). P. 39−43. DOI: 10.18127/j00338486-202010(20)-05 (In Russian).

1. Magdich L.N., Molchanov V.Ja. Akustoopticheskie ustrojstva i ih primenenie. M.: Sovetskoe radio. 1978. 112 s. (In Russian).
2. Bocharov A.G., Kashurkin K.S., Sharapov G.A., Medvedskij Ju.N. Razrabotka akustoopticheskogo moduljatora SVCh diapazona v integral'nom ispolnenii na osnove almaznyh struktur. Vestnik RAEN. 2018. № 3. S. 47 (In Russian). 
3. Arshinov A.R., Bocharov A.G., Kashurkin K.S., Medvedskij Ju.N., Podshivalova V.Ju., Sharapov G.A. Akustoopticheskij moduljator SVChdiapazona na osnove almaznyh struktur dlja integral'nogo optojelektronnogo spektroanalizatora. Sb. dokladov VI mikrovolnovoj konf. IRJe im. V.A. Kotel'nikova RAN. M. 2018 (In Russian). 
4. Bocharov A.G., Kashurkin K.S., Sharapov G.A. Razrabotka akustooptojelektronnogo priemnika SVCh-diapazona dlja sistem RChM. Vestnik RAEN. 2019. T. 19 № 3. S. 47 (In Russian).