Mathematical modeling of the output signal for different photodetector aperture geometries in interference system of interferogram analysis
https://doi.org/10.17586/0021-3454-2023-66-4-313-319
Abstract
Mathematical modeling of the output signal of interference system for interferogram analysis is carried out for different photodetector aperture geometries. The measuring system output signal is analyzed using the integration method. The requirements for changing the interference fringes parameters are determined. According to the performed analysis, it is necessary for the bandwidth to be much larger than the photodetector aperture when carrying out measurements.
About the Authors
E. E. Maiorov
St. Petersburg State University of Aerospace Instrumentation
Russian Federation
Russian Federation
Evgeny E. Maiorov — PhD, Associate Professor; Department of Applied Mathematics
St. Petersburg
A. V. Arefiev
St. Petersburg State University of Aerospace Instrumentation
Russian Federation
Russian Federation
Aleksandеr V. Arefiev — PhD, Associate Professor; Department of Applied Mathematics
St. Petersburg
Yu. M. Borodyansky
The Bonch-Bruevich St. Petersburg State University of Telecommunications
Russian Federation
Russian Federation
Yury M. Borodyansky — PhD, Associate Professor; Department of Information Systems Security
St. Petersburg
R. B. Guliyev
University under the Inter-Parliamentary Assembly of EurAsEC
Russian Federation
Russian Federation
Ramiz B. Guliyev — PhD, Associate Professor; Department of Mathematics and Information Technologies
St. Petersburg
A. V. Dagaev
Ivangorod Humanitarian and Technical Institute (branch of St. Petersburg State University of Aerospace Instrumentation),
Russian Federation
Russian Federation
Alexander V. Dagaev - PhD, Associate Professor; Department of Mathematics, Computer Science and Information Customs Technologies
Ivangorod
V. P. Pushkina
St. Petersburg State University of Aerospace Instrumentation
Russian Federation
Russian Federation
Vera P. Pushkina — PhD, Associate Professor; Department of Higher Mathematics and Mechanics
St. Petersburg
References
1. Powell R.L., Stetson K.A. J. Opt. Soc. Am., 1965, vol. 55, рр. 1593–1599.
2. Zhilkin V.A., Zinoviev V.B. Zhurnal Tekhnicheskoi Fiziki, 1986, no. 1(56), pp. 113–119. (in Russ.)
3. Vest Ch.M. Holographic Interferometry, NY, Wiley, 1979.
4. Mayorov E.E., Chernyak T.A., Tsygankova G.A., Mashek A.Ch., Konstantinova А.А. Instruments and Systems: Monitoring, Control, and Diagnostics, 2020, no. 7, pp. 25–32, DOI: 10.25791/pribor.07.2020.1190. (in Russ.)
5. Kurlov V.V., Kotskovich V.B., Maiorov E.E., Pushkina V.P., Tayurskaya I.S. News of the Tula State University. Technical Sciences, 2020, no. 8, pp. 179–189. (in Russ.)
6. Arefiev A.V., Borodyansky Yu.M., Guliev R.B., Dagaev A.V., Maiorov E.E., Khokhlova M.V. News of the Tula State University. Technical Sciences, 2020, no. 8, pp. 211–219. (in Russ.)
7. Tsygankova G.A., Maiorov E.E., Chernyak T.A., Konstantinova A.A., Mashek A.Ch., Pisareva E.A. Devices, 2021, no. 2, pp. 20–25 (in Russ.)
8. Mashek A.C., Tsygankova G.A., Konstantinova A.A., Maiorov E.E., Pisareva E.A., Gromov О.V. News of the Tula State University. Technical Sciences, 2021, no. 2, pp. 184–192. (in Russ.)
9. Khokhlova M.V., Dagaev A.V., Mayorov E.E., Arefyev A.V., Guliev R.B., Gromov O.V. Meždunarodnyj naučnoissledovatel'skij žurnal (International Research Journal), 2021, no. 8(110), pp. 103–108, DOI: https://doi.org/10.23670/IRJ.2021.110.8.015. (in Russ.)
10. Khokhlova M.V., Dagaev A.V., Arefyev A.V., Guliev R.B., Mayorov E.E., Gromov O.V. Meždunarodnyj naučnoissledovatel'skij žurnal (International Research Journal), 2021, no. 6(108), pp. 184–189, DOI: https://doi.org/10.23670/IRJ.2021.108.6.029. (in Russ.)
11. Chernyak T.A., Borodyansky Yu.M., Maiorov E.E., Popova E.V., Petrova E.A., Khokhlova M.V. News of the Tula State University. Technical Sciences, 2021, no. 6, pp. 199–204, DOI: 10.24412/2071-6168-2021-6-199-204. (in Russ.)
12. Maiorov Е.Е., Kolesnichenko S.V., Konstantinova A.A., Mashek A.Ch., Pisareva E.A., Tsygankova G.A. Instruments and Systems: Monitoring, Control, and Diagnostics, 2021, no. 9, pp. 1–6, DOI: 10.25791/pribor.9.2021.1287 (in Russ.)
13. Arefiev A.V., Kotskovich V.B., Maiorov E.E., Pushkina V.P., Sorokin A.A., Udakhina S.V. Instruments and Systems: Monitoring, Control, and Diagnostics, 2022, no. 2, pp. 1–6, DOI: 10.25791/pribor.2.2022.1319 (in Russ.)
14. Maiorov E.E., Kotskovich V.B., Pushkina V.P., Arefiev A.V., Guliyev R.B., Dagaev A.V. Nauchnoe Priborostroenie (Scientific Instrumentation), 2022, no. 2(32), pp. 65–74. (in Russ.)
15. Borodyansky Yu.M., Maiorov E.E., Petrova E.A., Popova E.V., Kurlov V.V., Udakhina S.V. Devices, 2022, no. 5(263), pp. 3–7. (in Russ.)
16. Maiorov Е.Е. Modelirovaniye i situatsionnoye upravleniye kachestvom slozhnykh sistem (Modeling and Situational Quality Management of Complex Systems), Third All-Russian Scientific Conference, St. Petersburg, April 18–22, 2022, рр. 52–55, DOI: 10.31799/978-5-8088-1707-4-2022-3. (in Russ.)
17. Maiorov Е.Е., Pushkina V.P., Arefiev A.V., Borodyansky Yu.M., Guliev R.B., Dagaev A.V. News of the Tula State University. Technical Sciences, 2022, no. 8, pp. 85–91, DOI: 10.24412/2071-6168-2022-8-85-91. (in Russ.)
18. Maiorov Е.Е., Fedorenko A.G., Chabanenko A.V., Khokhlova M.V., Guliev R.B., Dagaev A.V. News of the Tula State University. Technical Sciences, 2022, no. 8, pp. 75–80, DOI: 10.24412/2071-6168-2022-8-75-80. (in Russ.)
19. Maiorov Е.Е., Fedorenko A.G., Khokhlova M.V., Khaidarov G.G., Guliyev R.B., Dagaev A.V. News of the Tula State University. Technical Sciences, 2022, no. 8, pp. 51–56, DOI: 10.24412/2071-6168-2022-8-51-56. (in Russ.)
Review
For citations:
Maiorov E.E., Arefiev A.V., Borodyansky Yu.M., Guliyev R.B., Dagaev A.V., Pushkina V.P. Mathematical modeling of the output signal for different photodetector aperture geometries in interference system of interferogram analysis. Journal of Instrument Engineering. 2023;66(4):313-319. (In Russ.) https://doi.org/10.17586/0021-3454-2023-66-4-313-319
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