Quantitative and Dynamic Phase Imaging of Biological Cells by the Use of the Digital Holographic Microscopy Based on a Beam Displacer Unit

Jianglei Di; Ying Li; Kaiqiang Wang; Jianlin Zhao

doi:10.1109/JPHOT.2018.2839878

Quantitative and Dynamic Phase Imaging of Biological Cells by the Use of the Digital Holographic Microscopy Based on a Beam Displacer Unit

Jianglei Di, Ying Li, Kaiqiang Wang, Jianlin Zhao

School of Physical Science and Technology

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

The digital holographic microscopy can be used for the quantitative and dynamic phase imaging of biological cells, which has a very wide application in the fields of biological and medical sciences. To make the measurement system simple, compact, and low-cost, a common-path configuration based on a beam displacer unit is introduced in the digital holographic microscopy. The simple optical structure and common-path design reduces the system requirement for the light source coherence, realizes the convenient adjustment of the object and reference beams and achieves an excellent system temporal stability of 0.53 nm. The living mouse osteoblastic cells during mitotic phase are quantitatively measured to demonstrate the capability and applicability of the system.

Original language	English
Article number	6900510
Journal	IEEE Photonics Journal
Volume	10
Issue number	4
DOIs	https://doi.org/10.1109/JPHOT.2018.2839878
State	Published - Aug 2018

Keywords

biological cells
common-path configuration.
Digital holographic microscopy
phase measurement

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10.1109/JPHOT.2018.2839878

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title = "Quantitative and Dynamic Phase Imaging of Biological Cells by the Use of the Digital Holographic Microscopy Based on a Beam Displacer Unit",

abstract = "The digital holographic microscopy can be used for the quantitative and dynamic phase imaging of biological cells, which has a very wide application in the fields of biological and medical sciences. To make the measurement system simple, compact, and low-cost, a common-path configuration based on a beam displacer unit is introduced in the digital holographic microscopy. The simple optical structure and common-path design reduces the system requirement for the light source coherence, realizes the convenient adjustment of the object and reference beams and achieves an excellent system temporal stability of 0.53 nm. The living mouse osteoblastic cells during mitotic phase are quantitatively measured to demonstrate the capability and applicability of the system.",

keywords = "biological cells, common-path configuration., Digital holographic microscopy, phase measurement",

author = "Jianglei Di and Ying Li and Kaiqiang Wang and Jianlin Zhao",

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AU - Di, Jianglei

AU - Li, Ying

AU - Wang, Kaiqiang

AU - Zhao, Jianlin

PY - 2018/8

Y1 - 2018/8

N2 - The digital holographic microscopy can be used for the quantitative and dynamic phase imaging of biological cells, which has a very wide application in the fields of biological and medical sciences. To make the measurement system simple, compact, and low-cost, a common-path configuration based on a beam displacer unit is introduced in the digital holographic microscopy. The simple optical structure and common-path design reduces the system requirement for the light source coherence, realizes the convenient adjustment of the object and reference beams and achieves an excellent system temporal stability of 0.53 nm. The living mouse osteoblastic cells during mitotic phase are quantitatively measured to demonstrate the capability and applicability of the system.

AB - The digital holographic microscopy can be used for the quantitative and dynamic phase imaging of biological cells, which has a very wide application in the fields of biological and medical sciences. To make the measurement system simple, compact, and low-cost, a common-path configuration based on a beam displacer unit is introduced in the digital holographic microscopy. The simple optical structure and common-path design reduces the system requirement for the light source coherence, realizes the convenient adjustment of the object and reference beams and achieves an excellent system temporal stability of 0.53 nm. The living mouse osteoblastic cells during mitotic phase are quantitatively measured to demonstrate the capability and applicability of the system.

KW - biological cells

KW - common-path configuration.

KW - Digital holographic microscopy

KW - phase measurement

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ER -

Quantitative and Dynamic Phase Imaging of Biological Cells by the Use of the Digital Holographic Microscopy Based on a Beam Displacer Unit

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Keywords

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