Optical Sensor System for 3D Jones Matrix Reconstruction of Optical Anisotropy Maps of Self-Assembled Polycrystalline Soft Matter Films

Waldemar Wójcik; Zhengbing Hu; Yuriy Ushenko; Andrzej Smolarz; Iryna Soltys; Oleksander Dubolazov; Oleksander Ushenko; Olexandra Litvinenko; Ivan Mikirin; Ivan Gordey; Oleksandr Pavlyukovich; Sergii Pavlov; Natalia Pavlyukovich; Saltanat Amirgaliyeva; Aliya Kalizhanova; Zhalau Aitkulov

doi:10.3390/s24051589

Optical Sensor System for 3D Jones Matrix Reconstruction of Optical Anisotropy Maps of Self-Assembled Polycrystalline Soft Matter Films

Sensors (Basel). 2024 Feb 29;24(5):1589. doi: 10.3390/s24051589.

Authors

Waldemar Wójcik¹, Zhengbing Hu², Yuriy Ushenko³, Andrzej Smolarz¹, Iryna Soltys³, Oleksander Dubolazov³, Oleksander Ushenko^{3

4}, Olexandra Litvinenko⁵, Ivan Mikirin³, Ivan Gordey³, Oleksandr Pavlyukovich⁵, Sergii Pavlov⁶, Natalia Pavlyukovich⁵, Saltanat Amirgaliyeva⁷, Aliya Kalizhanova^{8

9}, Zhalau Aitkulov^{8

10}

Affiliations

¹ Department of Electronics and Information Technology, Lublin University of Technology, 20-618 Lublin, Poland.
² School of Computer Science, Hubei University of Technology, Wuhan 430068, China.
³ Computer Science Department, Yurii Fedkovich Chernivtsi National University, 58012 Chernivtsi, Ukraine.
⁴ Photoelectric Information Center, Research Institute of Zhejiang University, Taizhou 310058, China.
⁵ Department of Forensic Medicine and Medical Jurisprudence, Bukovinian State Medical University, 58000 Chernivtsi, Ukraine.
⁶ Laboratory of Biomedical Optics, Department of Biomedical Engineering and Optic-Electronic Systems, Faculty for Infocommunications, Radioelectronics and Nanosystems, Vinnytsia National Technical University, 21000 Vinnytsia, Ukraine.
⁷ Academy of Logistics and Transport, Almaty 050012, Kazakhstan.
⁸ Institute of Information and Computational Technologies CS MES RK, Almaty 050010, Kazakhstan.
⁹ Department of IT Engineering, Institute of Automation and Information Technology, Almaty University of Power Engineering and Telecommunications, Almaty 050013, Kazakhstan.
¹⁰ Department of Information Technologies and Library Affairs, Institute of Physics, Mathematics and Computing, Kazakh National Women's Teacher Training University, Almaty 050000, Kazakhstan.

Abstract

Our work uses a polarization matrix formalism to analyze and algorithmically represent optical anisotropy by open dehydration of blood plasma films. Analytical relations for Jones matrix reconstruction of optical birefringence maps of protein crystal networks of dehydrated biofluid films are found. A technique for 3D step-by-step measurement of the distributions of the elements of the Jones matrix or Jones matrix images (JMI) of the optically birefringent structure of blood plasma films (BPF) has been created. Correlation between JMI maps and corresponding birefringence images of dehydrated BPF and saliva films (SF) obtained from donors and prostate cancer patients was determined. Within the framework of statistical analysis of layer-by-layer optical birefringence maps, the parameters most sensitive to pathological changes in the structure of dehydrated films were found to be the central statistical moments of the 1st to 4th orders. We physically substantiated and experimentally determined the sensitivity of the method of 3D polarization scanning technique of BPF and SF preparations in the diagnosis of endometriosis of uterine tissue.

Keywords: 3D reconstruction; Jones matrix; blood plasma; diagnostics; optical anisotropy.

MeSH terms

Anisotropy
Birefringence
Female
Humans
Microscopy, Polarization / methods
Optical Devices*
Proteins

Substances

Proteins

Grants and funding

This work is supported by grant from the Ministry of Science and higher Education of the Republic of Kazakhstan within the framework of the Project № AP09259547 «Development of a system of distributed fiber-optic sensors based on fiber Bragg gratings for monitoring the state of building structures», Institute Information and Computational Technologies CS MSHE RK.