Microscopic single-pixel polarimetry for biological tissue

Yazhen Wang; Daixuan Wu; Meilin Yang; Shuhuai Bai; Sitong Huang; Mingjing Wang; Ruinan Liu; Zhaohui Li; Dan Li; Yuecheng Shen

doi:10.1063/5.0150136

Microscopic single-pixel polarimetry for biological tissue

Yazhen Wang
, Daixuan Wu
, Meilin Yang
, Shuhuai Bai
, Sitong Huang
, Mingjing Wang
, Ruinan Liu
, Zhaohui Li
, Dan Li^*
, Yuecheng Shen^*

^*此作品的通讯作者

Sun Yat-Sen University
Southern Marine Science and Engineering Guangdong Laboratory - Guanzhou

科研成果: 期刊稿件 › 文章 › 同行评审

24 引用（Scopus）

摘要

Single-pixel imaging (SPI) is a computational imaging modality that reconstructs images from information collected with a single-pixel detector. Due to the relatively large bandwidth and cheap price of single-pixel detectors over pixel-array detectors, SPI has been demonstrated with great success in many imaging scenarios. In this work, we further extended SPI to microscopic Mueller-matrix polarimetry, which is capable of providing polarization-sensitive properties of biological tissue with a millimeter-size field of view and micrometer-size resolution. As a proof of concept, we applied polarimetry on normal and cancerous esophagus tissues from patients and reconstructed their Mueller matrices. Effects of depolarization, retardation, and diattenuation were also examined by decomposing Mueller matrices. We envision that the developed computational technique can bring new possibilities for both SPI and Mueller-matrix polarimetry.

源语言	英语
文章编号	203701
期刊	Applied Physics Letters
卷	122
期	20
DOI	https://doi.org/10.1063/5.0150136
出版状态	已出版 - 15 5月 2023
已对外发布	是

联合国可持续发展目标

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title = "Microscopic single-pixel polarimetry for biological tissue",

abstract = "Single-pixel imaging (SPI) is a computational imaging modality that reconstructs images from information collected with a single-pixel detector. Due to the relatively large bandwidth and cheap price of single-pixel detectors over pixel-array detectors, SPI has been demonstrated with great success in many imaging scenarios. In this work, we further extended SPI to microscopic Mueller-matrix polarimetry, which is capable of providing polarization-sensitive properties of biological tissue with a millimeter-size field of view and micrometer-size resolution. As a proof of concept, we applied polarimetry on normal and cancerous esophagus tissues from patients and reconstructed their Mueller matrices. Effects of depolarization, retardation, and diattenuation were also examined by decomposing Mueller matrices. We envision that the developed computational technique can bring new possibilities for both SPI and Mueller-matrix polarimetry.",

author = "Yazhen Wang and Daixuan Wu and Meilin Yang and Shuhuai Bai and Sitong Huang and Mingjing Wang and Ruinan Liu and Zhaohui Li and Dan Li and Yuecheng Shen",

note = "Publisher Copyright: {\textcopyright} 2023 Author(s).",

year = "2023",

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day = "15",

doi = "10.1063/5.0150136",

language = "英语",

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T1 - Microscopic single-pixel polarimetry for biological tissue

AU - Wang, Yazhen

AU - Wu, Daixuan

AU - Yang, Meilin

AU - Bai, Shuhuai

AU - Huang, Sitong

AU - Wang, Mingjing

AU - Liu, Ruinan

AU - Li, Zhaohui

AU - Li, Dan

AU - Shen, Yuecheng

PY - 2023/5/15

Y1 - 2023/5/15

N2 - Single-pixel imaging (SPI) is a computational imaging modality that reconstructs images from information collected with a single-pixel detector. Due to the relatively large bandwidth and cheap price of single-pixel detectors over pixel-array detectors, SPI has been demonstrated with great success in many imaging scenarios. In this work, we further extended SPI to microscopic Mueller-matrix polarimetry, which is capable of providing polarization-sensitive properties of biological tissue with a millimeter-size field of view and micrometer-size resolution. As a proof of concept, we applied polarimetry on normal and cancerous esophagus tissues from patients and reconstructed their Mueller matrices. Effects of depolarization, retardation, and diattenuation were also examined by decomposing Mueller matrices. We envision that the developed computational technique can bring new possibilities for both SPI and Mueller-matrix polarimetry.

AB - Single-pixel imaging (SPI) is a computational imaging modality that reconstructs images from information collected with a single-pixel detector. Due to the relatively large bandwidth and cheap price of single-pixel detectors over pixel-array detectors, SPI has been demonstrated with great success in many imaging scenarios. In this work, we further extended SPI to microscopic Mueller-matrix polarimetry, which is capable of providing polarization-sensitive properties of biological tissue with a millimeter-size field of view and micrometer-size resolution. As a proof of concept, we applied polarimetry on normal and cancerous esophagus tissues from patients and reconstructed their Mueller matrices. Effects of depolarization, retardation, and diattenuation were also examined by decomposing Mueller matrices. We envision that the developed computational technique can bring new possibilities for both SPI and Mueller-matrix polarimetry.

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U2 - 10.1063/5.0150136

DO - 10.1063/5.0150136

M3 - 文章

AN - SCOPUS:85159785773

SN - 0003-6951

VL - 122

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 20

M1 - 203701

ER -

Microscopic single-pixel polarimetry for biological tissue

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