Fantomnaya volokonnaya endoskopiya s neskol'kimi odnopiksel'nymi datchikami v ob\"ektnom kanale

Cover Page

Cite item

Full Text

Open Access Open Access
Restricted Access Access granted
Restricted Access Subscription Access

Abstract

We describe a new method for the formation of optical ghost images, in which radiation in the object arm is detected by several detectors. The advantage of the proposed method is demonstrated, which is the smaller number of illumination patterns required for reconstructing the object image as compared to traditional schemes of ghost imaging. We propose variants of algorithms for measurement reduction to the form relevant to the imaging of the object of investigation, which are aimed at improvement of the performance of the computing component of the endoscope. The fiber-optic version of ghost imaging considered here is suitable for investigating hard-to-reach abdomens and organs of human organism, which permit the introduction of a thin fiber-optic bundle, thus extending its applicability as compared to traditional optic endoscopic methods.

About the authors

D. A. Balakin

Physics Faculty, Moscow State University

Email: balakin_d_a@physics.msu.ru
119991, Moscow, Russia

A. V. Belinskiy

Physics Faculty, Moscow State University

Author for correspondence.
Email: belinsky@physics.msu.ru
119991, Moscow, Russia

References

  1. А. Гатти, Э. Брамбилла, М. Баке и др., в Квантовое изображение, под ред. М. И. Колобова (ориг.), А. С. Чиркина (пер.), Физматлит, Москва (2009), с. 96
  2. A. Gatti, E. Brambilla, M. Bache et al., in Quantum Imaging, ed. by M. I. Kolobov, Springer (2007), p. 79.
  3. T. B. Pittman, D. V. Strekalov, D. N. Klyshko et al., Phys. Rev. A 53, 2804 (1996).
  4. А. В. Белинский, Д. Н. Клышко, ЖЭТФ 105, 487 (1994)
  5. A. V. Belinskii, D. N. Klyshko, JETP 78, 259 (1994).
  6. Д. Н. Клышко, Фотоны и нелинейная оптика, Наука, Москва (1980)
  7. D. N. Klyshko, Photons Nonlinear Optics, Routledge, New York (1988).
  8. J. H. Shapiro, Phys. Rev. A 78, 061802 (2008).
  9. G. M. Gibson, S. D. Johnson, M. J. Padgett, Optics Express 28, 28190 (2020).
  10. D. L. Donoho, IEEE Trans. Inf. Theory 52, 1289 (2006).
  11. E. J. Candes, T. Tao, IEEE Trans. Inf. Theory 52, 5406 (2006).
  12. E. J. Candes, M. B. Wakin, IEEE Signal Processing Magazine 25, 21 (2008).
  13. M. F. Duarte, M. A. Davenport, D. Takhar et al., IEEE Signal Processing Magazine 25, 83 (2008).
  14. S. Han, H. Yu, X. Shen et al., Applied Sciences 8, 1379 (2018).
  15. Ю. П. Пытьев, Методы математического моделирования измерительно-вычислительных систем, Физматлит, Москва (2012), 3 изд.
  16. D. A. Balakin, A. V. Belinsky, A. S. Chirkin, Quantum Inf. Process. 18, 80 (2019).
  17. Д. А. Балакин, А. В. Белинский, Квантовая электроника 49, 967 (2019)
  18. D. A. Balakin, A. V. Belinsky, Quantum Electronics 49, 967 (2019).
  19. Д. А. Балакин, Д. П. Агапов, П. П. Гостев и др., ЖЭТФ 162, 811 (2022)
  20. D. A. Balakin, D. P. Agapov, P. P. Gostev et al., JETP 135, 779 (2022).
  21. M. Lyu, W. Wang, H. Wang et al., Sci. Rep. 7, 17865 (2017).
  22. Y. He, G. Wang, G. Dong et al., Sci. Rep. 8, 6469 (2018).
  23. T. Shimobaba, Y. Endo, T. Nishitsuji et al., Opt. Commun. 413, 147 (2018).
  24. Д. А. Балакин, А. В. Белинский, Вестн. Моск. ун-та. Физ. Астрон. 4, 12 (2020)
  25. D. A. Balakin and A. V. Belinsky, Moscow University Physics Bulletin 75(4), 295 (2020).
  26. D. A. Balakin and A. V. Belinsky, Quantum Inf. Process. 19, 316 (2020).
  27. M. P. Edgar, B. Sun, R. Bowman et al., in SPIE Proc. Vol. 8899, Emerging Technologies in Security and Defence; and Quantum Security II; and Unmanned Sensor Systems X, Dresden (2013), SPIE (2013), 889902.
  28. Y. Kang, Y.-P. Yao, Z.-H. Kang et al., JOSA A 32, 1063 (2015).
  29. E. K. P. Chong and S. H. Zak, An Introduction to Optimization, 4th ed., John Wiley and Sons, Hoboken, NJ (2013).
  30. Z. Yang, W.-X. Zhang, Y.-P. Liu et al., Opt. Express 28, 3607 (2020).
  31. A. Beck and M. Teboulle, SIAM Journal on Imaging Sciences 2, 183 (2009).
  32. B. Stellato, G. Banjac, P. Goulart et al., Mathematical Programming Computation 12(4), 637 (2020).
  33. J. Chung, M. I. Espanol, Inverse Problems 33(7), 074004 (2017).
  34. P. C. Hansen and D. P. O'Leary, SIAM Journal on Scientific Computing 14, 1487 (1993).
  35. P. A. Morris, R. S. Aspden, J. E. C. Bell et al., Nat. Commun. 6, 5913 (2015).
  36. J. Kim, T. Jeong, S.-Y. Lee et al., Appl. Phys. Lett. 119(24), 244002 (2021).
  37. Д. А. Балакин, А. В. Белинский, ЖЭТФ 149, 915 (2016)
  38. D. A. Balakin, A. V. Belinsky, JETP 122, 787 (2016).
  39. Ю. П. Пытьев, Математические методы интерпретации эксперимента, Высшая школа, Москва (1989).
  40. Д. А. Балакин,Ю. П. Пытьев, Ученые записки физического факультета Московского Университета 5, 1850301 (2018).
  41. Д. П. Агапов, И. А. Беловолов, П. П. Гостев и др., ЖЭТФ 162(2), 215 (2022)
  42. D. P. Agapov, I. A. Belovolov, P. P. Gostev et al., JETP 135, 188 (2022).
  43. Г. Г. Слюсарев, Методы расчета оптических систем, Машиностроение, Ленинград (1969)
  44. G. G. Slyusarev, Aberration and optical design theory, A. Hilger, Bristol (1984).
  45. А. В. Белинский, Журнал научной и прикладной фотографии и кинематографии 3, 198 (1983).
  46. A. V. Belinsky and A. V. Plokhov, Applied Optics 34, 174 (1995).

Copyright (c) 2023 Russian Academy of Sciences

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies