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The scattering system through a highly scattering thin layer only affects the amplitude and phase distribution of incident light wave, but does not lead the total energy to be attenuated. This process can be regarded as a process that light wave is encoded by the scattering medium, which is similar to a double random phase encryption system. In this paper, firstly, it is proved that the distribution characteristics of speckle generated by the light wave carrying the target information through a strongly scattering thin layer are highly similar to the distribution characteristics of cyphertext obtained by the double random phase encryption system encrypting the same plaintext target. Therefore, the scattering system is seen as a double random phase encryption system, and the two random phase keys corresponding to the scattering system are calculated accurately by using the phase recovery algorithm. At the same time, it is proved that these two key boards can successfully reconstruct the original images corresponding to any other speckles obtained by the scattering system. Finally, a cyphertext-only attack method to attack a scattering system through a highly scattering thin layer is used to further prove the equivalence of two key boards and the good results are obtained. Since imaging through a scattering medium is an extremely complicated process, we actually simplify the corresponding process ideally. It should be noted that the equivalent system means that the incident-surface-to-exit-surface of scattering medium is equivalent to the incident-surface-to-exit-surface of DRPE system. However, in the actual process, there are still two diffraction processes: one is the diffraction process from the object to the incident surface and the other is the diffraction process from the output surface to the receiving surface. These two diffraction processes will cause the incident image and the output image of scattering medium to have a certain diffraction effect. We believe that under ideal conditions, due to the equivalence between the thin-layer strong scattering system and the DRPE system, theoretically all pure ciphertext attack methods applicable to the DRPE system can be applied to the speckle recovery of the thin-layer strong scattering system. In the future, it is possible to develop more methods of using system equivalence to crack the scattered light field. We hope this article can provide a new idea for scattering imaging.
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Keywords:
- highly scattering system /
- double random phase encryption system /
- phase recovery algorithm /
- image reconstruction
[1] Mujumdar S, Ramachandran H 2004 Opt. Commun. 241 1Google Scholar
[2] Wu P F, Liang Z, Zhao X, Su L, Song L P 2017 Appl. Optics. 56 3335Google Scholar
[3] Nagar H, Dekel E, Kasimov D, Roichman Y 2018 Opt. Lett. 43 190Google Scholar
[4] Katz O, Small E, Silberberg Y 2012 Nat. Photonics. 6 549Google Scholar
[5] Wu T F, Dong J, Shao X P, Gigan S 2017 Opt. Express. 25 27182Google Scholar
[6] Wu T F, Katz O, Shao X P, Gigan S 2016 Opt. Lett. 41 5003Google Scholar
[7] Shao X P, Wu T F, Gong C M 2013 Opt. Eng. 52 113
[8] Cui M 2011 Opt. Lett. 36 870Google Scholar
[9] Conkey D B, Caravaca-Aguirre A M, Piestun R 2012 Opt. Express. 20 1733Google Scholar
[10] Liu J T, Wang J N, Li W, Sun X Y, Zhu L, Guo C F, Shao X P 2018 IEEE Photonics J. 10 1
[11] Chaigne T, Katz O, Boccara A C, Fink M, Bossy E, Gigan S 2013 Nat. Photonics 8 58
[12] 龚昌妹 2017 博士学位论文(西安: 西安电子科技大学)
Gong C M 2017 Ph .D. Dissertation (Xi’an: Xidian University) (in Chinese)
[13] Katz O, Heidmann P, Fink M, Gigan S 2014 Nat. Photonics. 8 784
[14] 宋洪胜, 程传福, 张宁玉, 任晓荣滕树云徐至展 2005 物理学报 54 669Google Scholar
Song H S, Cheng C F, Zhang N Y, Ren X R, Ten S Y, Xu Z Z 2005 Acta Phys. Sin. 54 669Google Scholar
[15] Idell P S, Fienup J R, Goodman R S 1987 Opt. Lett. 12 858Google Scholar
[16] Li G W, Yang W Q, Li D Y, Situ G H 2017 Opt. Express 25 8690Google Scholar
[17] Guo C L, Liu S, Sheridan J T 2015 Appl. Optics. 54 4698Google Scholar
[18] Lowenthal S, Arsenault H 1970 J. Opt. Soc. Am. 60 1478Google Scholar
[19] Goodman J W 2000 Statistical Optics (New York: Wiley) pp320—390
[20] Refregier P, Javidi B 1995 Opt. Lett. 20 767Google Scholar
[21] 吴腾飞 2018 博士学位论文 (西安: 西安电子科技大学)
Wu T F 2018 Ph. D. Dissertation (Xi’an: Xidian University) (in Chinese)
[22] 彭翔, 张鹏, 位恒政, 于斌 2006 物理学报 55 1130Google Scholar
Peng X, Zhang P, Wei H Z, Yu B 2006 Acta Phys. Sin. 55 1130Google Scholar
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[1] Mujumdar S, Ramachandran H 2004 Opt. Commun. 241 1Google Scholar
[2] Wu P F, Liang Z, Zhao X, Su L, Song L P 2017 Appl. Optics. 56 3335Google Scholar
[3] Nagar H, Dekel E, Kasimov D, Roichman Y 2018 Opt. Lett. 43 190Google Scholar
[4] Katz O, Small E, Silberberg Y 2012 Nat. Photonics. 6 549Google Scholar
[5] Wu T F, Dong J, Shao X P, Gigan S 2017 Opt. Express. 25 27182Google Scholar
[6] Wu T F, Katz O, Shao X P, Gigan S 2016 Opt. Lett. 41 5003Google Scholar
[7] Shao X P, Wu T F, Gong C M 2013 Opt. Eng. 52 113
[8] Cui M 2011 Opt. Lett. 36 870Google Scholar
[9] Conkey D B, Caravaca-Aguirre A M, Piestun R 2012 Opt. Express. 20 1733Google Scholar
[10] Liu J T, Wang J N, Li W, Sun X Y, Zhu L, Guo C F, Shao X P 2018 IEEE Photonics J. 10 1
[11] Chaigne T, Katz O, Boccara A C, Fink M, Bossy E, Gigan S 2013 Nat. Photonics 8 58
[12] 龚昌妹 2017 博士学位论文(西安: 西安电子科技大学)
Gong C M 2017 Ph .D. Dissertation (Xi’an: Xidian University) (in Chinese)
[13] Katz O, Heidmann P, Fink M, Gigan S 2014 Nat. Photonics. 8 784
[14] 宋洪胜, 程传福, 张宁玉, 任晓荣滕树云徐至展 2005 物理学报 54 669Google Scholar
Song H S, Cheng C F, Zhang N Y, Ren X R, Ten S Y, Xu Z Z 2005 Acta Phys. Sin. 54 669Google Scholar
[15] Idell P S, Fienup J R, Goodman R S 1987 Opt. Lett. 12 858Google Scholar
[16] Li G W, Yang W Q, Li D Y, Situ G H 2017 Opt. Express 25 8690Google Scholar
[17] Guo C L, Liu S, Sheridan J T 2015 Appl. Optics. 54 4698Google Scholar
[18] Lowenthal S, Arsenault H 1970 J. Opt. Soc. Am. 60 1478Google Scholar
[19] Goodman J W 2000 Statistical Optics (New York: Wiley) pp320—390
[20] Refregier P, Javidi B 1995 Opt. Lett. 20 767Google Scholar
[21] 吴腾飞 2018 博士学位论文 (西安: 西安电子科技大学)
Wu T F 2018 Ph. D. Dissertation (Xi’an: Xidian University) (in Chinese)
[22] 彭翔, 张鹏, 位恒政, 于斌 2006 物理学报 55 1130Google Scholar
Peng X, Zhang P, Wei H Z, Yu B 2006 Acta Phys. Sin. 55 1130Google Scholar
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