Optical Method for Registration High-Frequency Gravitational Waves

Vladimir O. Gladyshev; Гладышев Владимир Олегович; Igor V. Fomin; Фомин Игорь Владимирович; Iliya S. Golyak; Голяк Илья Семенович; Andrey L. Nazolin; Назолин Андрей Леонидович; Pavel P. Demkin; Дёмкин Павел Павлович; Vladimir L. Kauts; Кауц Владимир Леонидович; Artem A. Esakov; Есаков Артем Александрович; Sergey E. Tabalin; Табалин Сергей Егорович

doi:10.22204/2410-4639-2025-125-01-14-19

Optical Method for Registration High-Frequency Gravitational Waves

Authors: Gladyshev V.O.¹, Fomin I.V.¹, Golyak I.S.¹, Nazolin A.L.¹, Demkin P.P.², Kauts V.L.¹, Esakov A.A.¹, Tabalin S.E.¹
Affiliations:
1. Bauman Moscow State Technical University
2. JSC Center for Applied Physics of Bauman MSTU
Issue: Vol 125, No 1 (2025): THEMED SECTION: FUNDAMENTAL PROBLEMS OF GRAVITATIONAL- WAVE ASTRONOMY AND GRAVIMETRY
Pages: 14-19
Section: THEMED SECTION: FUNDAMENTAL SCIENTIFIC RESEARCH IN THE FIELD OF NATURAL SCIENCES
URL: https://bakhtiniada.ru/1605-8070/article/view/303837
DOI: https://doi.org/10.22204/2410-4639-2025-125-01-14-19
ID: 303837

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Abstract

The possibility of recording high-frequency gravitational waves from cosmological and astrophysical sources through gravitational-optical resonance in Fabry – Perot interferometers is considered. The main characteristics of high-frequency relict gravitational waves necessary for estimating the detector parameters are considered. The characteristics of gravitational wave antennas necessary for recording high-frequency relict gravitational waves are given with taking into account theoretical restrictions on their energy density. A limitation has been found on the frequency of fundamentally registered gravitational waves using the proposed detection method. The optima f~3–10 MHz frequency range for tuning the proposed detector has been determined. Based on the operation of the created prototype of a complex for recording high-frequency gravitational waves, it is shown that the implementation of this scheme involves the correlation of signals from several gravitational wave antennas during the characteristic time required for recording gravitational waves using the proposed method.

Keywords

gravitational waves, Fabry – Perot interferometers, gravitational wave detectors, data acquisition system, synchronization system

RAS Professor

Russian Federation, 5, 2nd Bauman Str., Moscow, 105005, Russia

References

B.P. Abbott, P. Abbott, T.D. Abbott et al. Phys. Rev. Lett., 2016, 116, 6, 061102. doi: 10.1103/PhysRevLett.116.061102.
B.P. Abbott, P. Abbott, T.D. Abbott et al. Astrophys. J. Lett., 2017, 848, L13. doi: 10.3847/2041-8213/aa920c.
V.I. Pustovoit UFN, 2016, 186, 9, 1133. doi: 10.3367/UFNr.2016.03.037900.
S. Vitale Gen. Relativ. Gravit., 2014, 46, 1730. doi: 10.1007/s10714-014-1730-2.
G. Agazie, A. Anumarlapudi, A.M. Archibald et al. Astrophys. J. Lett., 2023, 951, 1, L8. doi: 10.3847/2041-8213/acdac6.
A.D. Johnson, P.M. Meyers, P.T. Baker et al. Phys. Rev. D, 2024, 109, 10, 103012. doi: 10.1103/PhysRevD.109.103012.
N. Aggarwal, O.D. Aguiar, A. Bauswein et. al. Living Rev. Rel., 2021, 24, 4. doi: 10.1007/s41114-021-00032-5.
I.V. Fomin, S.V. Chervon, A.N. Morozov Gravitation Waves of the Early Universe [Gravitatsionnye volny ranney vselennoy], RF, Moscow, BMSTU Publ., 2018, 154 pp. (in Russian).
M. Giovannini Prog. Part. Nucl. Phys., 2020, 112, 103774. doi: 10.1016/j.ppnp.2020.103774.
S. Ahmad, R. Myrzakulov, M. Sami Phys. Rev. D, 2017, 96, 063515. doi: 10.1103/PhysRevD.96.063515.
I.V. Fomin, S.V. Chervon, A.N. Morozov, I.S. Golyak Eur. Phys. J. C, 2022, 82, 642. doi: 10.1140/epjc/s10052-022-10601-9.
G.D. Manucharyan, I.V. Fomin Space, Time and Fundamental Interactions [Prostranstvo, vremya i fundamentalnye vzaimodeystvia], 2022, 40, 119 (in Russian). doi: 10.17238/issn2226-8812.2022.3.119-131.
A.N. Morozov, I.S. Golyak, I.V. Fomin, S.V. Chervon Space, Time and Fundamental Interactions [Prostranstvo, vremya i fundamentalnye vzaimodeystvia], 2022, 41, 49 (in Russian). doi: 10.17238/issn2226-8812.2022.4.49-61.
I. Bichak, V.N. Rudenko Gravitational Waves of the General Theory of Relativity and the Problem of Their Detection [Gravitatsionnye volny obshchey teorii otnositelnosti i problema ikh obnaruzheniya]. Moscow, MSTU Publ., 1987, 264 pp. (in Russian).
I.S. Golyak, A.N. Morozov, I.V. Fomin Herald of the Bauman Moscow State Technical University, Series Natural Sciences [Vestnik MGTU im. N.E. Baumana, Ser. Yestestvennye nauki], 2022, 2(101), 57 (in Russian). doi: 10.18698/1812-3368-2022-2-57-67.
I.S. Golyak, A.N. Morozov, A.L. Nasolin, S.E. Tabalin Radio Engineering [Radiostroenie], 2020, 3, 35 (in Russian). doi: 10.36027/rdeng.0320.0000172.
I.S. Golyak, A.N. Morozov, A.L. Nasolin, S.E. Tabalin Radio Engineering [Radiostroenie], 2020, 5, 42 (in Russian). doi: 10.36027/rdeng.0520.0000184.
A.N. Morozov, I.S. Golyak, A.L. Nasolin In Proc. XII Conference “Irreversible Processes in Nature and Technology” [XII Vserossiyskaya konferentsia «Neobratimye protsessy v prirode i tekhnike»: trudy konferentsii: v 2 tomakh] (RF, Moscow, 31 Jan. – 3 Feb., 2023), 2023, vol. 2, 24 (in Russian).

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Optical Method for Registration High-Frequency Gravitational Waves

Full Text

Abstract

Keywords

About the authors

References

Supplementary files