A phase unwrapping method with the sparse prior for diffraction phase microscopy

Peng Wang; Tao Peng; Shuhe Zhang; Fengya Lu; Zhensheng Zhong; Jun Li; Yi Wang; Jinhua Zhou

doi:10.1016/j.optlastec.2023.110268

A phase unwrapping method with the sparse prior for diffraction phase microscopy

Peng Wang, Tao Peng, Shuhe Zhang^*, Fengya Lu, Zhensheng Zhong, Jun Li, Yi Wang^*, Jinhua Zhou^*

^*Corresponding author for this work

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

Abstract

Phase unwrapping is widely used in interferometry. In the typical least square (LS) method, the noise in the wrapped phase cannot be removed. An improved algorithm based on total variation (TV) imposes L1-norm on the image gradient to improve the sparsity. However, it may lead to over-sparsity, and the unwrapped phase will be compressed if the penalty term is overlarge. In this study, we proposed a sparse prior phase unwrapping (SPUP) algorithm to solve the wrapped phase of interferograms of diffraction phase microscopy (DPM). Since DPM has a unique sample sparsity in the imaging field of high-power objectives, the L0-norm and L1-norm regularizations are introduced into the SPUP process. The results verify the strong denoising ability and high phase fidelity of the proposed SPUP method. Moreover, the uneven background noise and phase shifting of DPM interferograms could be corrected, demonstrating the great potential of the SPUP method in various interferometry measurements.

Original language	English
Article number	110268
Number of pages	10
Journal	Optics and Laser Technology
Volume	170
DOIs	https://doi.org/10.1016/j.optlastec.2023.110268
Publication status	Published - 1 Mar 2024

Keywords

Diffraction phase microscopy
Phase unwrapping
Regularization
Sparse prior

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10.1016/j.optlastec.2023.110268Licence: CC BY-NC-ND

Cite this

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title = "A phase unwrapping method with the sparse prior for diffraction phase microscopy",

abstract = "Phase unwrapping is widely used in interferometry. In the typical least square (LS) method, the noise in the wrapped phase cannot be removed. An improved algorithm based on total variation (TV) imposes L1-norm on the image gradient to improve the sparsity. However, it may lead to over-sparsity, and the unwrapped phase will be compressed if the penalty term is overlarge. In this study, we proposed a sparse prior phase unwrapping (SPUP) algorithm to solve the wrapped phase of interferograms of diffraction phase microscopy (DPM). Since DPM has a unique sample sparsity in the imaging field of high-power objectives, the L0-norm and L1-norm regularizations are introduced into the SPUP process. The results verify the strong denoising ability and high phase fidelity of the proposed SPUP method. Moreover, the uneven background noise and phase shifting of DPM interferograms could be corrected, demonstrating the great potential of the SPUP method in various interferometry measurements.",

keywords = "Diffraction phase microscopy, Phase unwrapping, Regularization, Sparse prior",

author = "Peng Wang and Tao Peng and Shuhe Zhang and Fengya Lu and Zhensheng Zhong and Jun Li and Yi Wang and Jinhua Zhou",

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doi = "10.1016/j.optlastec.2023.110268",

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T1 - A phase unwrapping method with the sparse prior for diffraction phase microscopy

AU - Wang, Peng

AU - Peng, Tao

AU - Zhang, Shuhe

AU - Lu, Fengya

AU - Zhong, Zhensheng

AU - Li, Jun

AU - Wang, Yi

AU - Zhou, Jinhua

PY - 2024/3/1

Y1 - 2024/3/1

N2 - Phase unwrapping is widely used in interferometry. In the typical least square (LS) method, the noise in the wrapped phase cannot be removed. An improved algorithm based on total variation (TV) imposes L1-norm on the image gradient to improve the sparsity. However, it may lead to over-sparsity, and the unwrapped phase will be compressed if the penalty term is overlarge. In this study, we proposed a sparse prior phase unwrapping (SPUP) algorithm to solve the wrapped phase of interferograms of diffraction phase microscopy (DPM). Since DPM has a unique sample sparsity in the imaging field of high-power objectives, the L0-norm and L1-norm regularizations are introduced into the SPUP process. The results verify the strong denoising ability and high phase fidelity of the proposed SPUP method. Moreover, the uneven background noise and phase shifting of DPM interferograms could be corrected, demonstrating the great potential of the SPUP method in various interferometry measurements.

AB - Phase unwrapping is widely used in interferometry. In the typical least square (LS) method, the noise in the wrapped phase cannot be removed. An improved algorithm based on total variation (TV) imposes L1-norm on the image gradient to improve the sparsity. However, it may lead to over-sparsity, and the unwrapped phase will be compressed if the penalty term is overlarge. In this study, we proposed a sparse prior phase unwrapping (SPUP) algorithm to solve the wrapped phase of interferograms of diffraction phase microscopy (DPM). Since DPM has a unique sample sparsity in the imaging field of high-power objectives, the L0-norm and L1-norm regularizations are introduced into the SPUP process. The results verify the strong denoising ability and high phase fidelity of the proposed SPUP method. Moreover, the uneven background noise and phase shifting of DPM interferograms could be corrected, demonstrating the great potential of the SPUP method in various interferometry measurements.

KW - Diffraction phase microscopy

KW - Phase unwrapping

KW - Regularization

KW - Sparse prior

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DO - 10.1016/j.optlastec.2023.110268

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JO - Optics and Laser Technology

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