High-resolution polarization-sensitive Fourier ptychography microscopy using a high numerical aperture dome illuminator

GholamiMayani, Mahdieh; Tekseth, Kim Robert; Breiby, Dag W.; Klein, Jörn; Akram, Muhammad Nadeem

doi:10.1364/oe.469115

Opt. Express

2022

DOI: 10.1364/oe.469115

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High-resolution polarization-sensitive Fourier ptychography microscopy using a high numerical aperture dome illuminator

Mahdieh GholamiMayani¹,

Kim Robert Tekseth

Dag W. Breiby

et al.

Abstract: Polarization-sensitive Fourier-ptychography microscopy (pFPM) allows for high resolution imaging while maintaining a large field of view, and without mechanical movements of optical-setup components. In contrast to ordinary light microscopes, pFPM provides quantitative absorption and phase information, for complex and birefringent specimens, with high resolution across a wide field of view. Using a semi-spherical home-built LED illumination array, a single polarizer, and a 10x /0.28NA objective, we experimenta… Show more

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Cited by 5 publications

References 26 publications

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Mapping surface flaws on float glass through Fourier ptychographic quantitative phase imaging

Tekseth,

Rudshaug,

Mayani

et al. 2023

Applied Physics Letters

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Glass is increasingly used as a load-carrying construction material both in buildings and vehicles, and growing emphasis is consequently given to its safety properties. How the mechanical properties of glass relate to the inevitable presence of surface defects, and how these defects can be efficiently measured, are important scientific questions. We demonstrate that Fourier ptychographic microscopy can be used to detect, count, and topographically measure glass surface defects through the reconstructed quantitative phase images. We characterized several key parameters, including the length, width, orientation, eccentricity, and depth of the identified flaws and cross-validated our results with atomic force microscopy topography maps. The sign of the phase shift makes it feasible to discriminate surface flaws from impurities residing on the glass surface. The method is quantitative, scalable, and allows extended areas to be screened. The proposed technique has the potential to improve the understanding of surface flaws in glass and thereby contribute to better mechanical models for predicting glass failure and fracture under quasi-static and dynamic loading.

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Mapping surface flaws on float glass through Fourier ptychographic quantitative phase imaging

Tekseth,

Rudshaug,

Mayani

et al. 2023

Applied Physics Letters

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Optical ptychography for biomedical imaging: recent progress and future directions [Invited]

Wang¹,

Jiang²,

Song³

et al. 2023

Biomed. Opt. Express

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Ptychography is an enabling microscopy technique for both fundamental and applied sciences. In the past decade, it has become an indispensable imaging tool in most X-ray synchrotrons and national laboratories worldwide. However, ptychography’s limited resolution and throughput in the visible light regime have prevented its wide adoption in biomedical research. Recent developments in this technique have resolved these issues and offer turnkey solutions for high-throughput optical imaging with minimum hardware modifications. The demonstrated imaging throughput is now greater than that of a high-end whole slide scanner. In this review, we discuss the basic principle of ptychography and summarize the main milestones of its development. Different ptychographic implementations are categorized into four groups based on their lensless/lens-based configurations and coded-illumination/coded-detection operations. We also highlight the related biomedical applications, including digital pathology, drug screening, urinalysis, blood analysis, cytometric analysis, rare cell screening, cell culture monitoring, cell and tissue imaging in 2D and 3D, polarimetric analysis, among others. Ptychography for high-throughput optical imaging, currently in its early stages, will continue to improve in performance and expand in its applications. We conclude this review article by pointing out several directions for its future development.

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Mixed-state ptychography for quantitative optical properties measurement of vector beam

Sun,

Zhang,

Cheng

et al. 2024

Opt. Express

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Recent advances in ptychography have extended to anisotropic specimens, but vectorial reconstruction of probes owing to polarization aliasing remains a challenge. A polarization-sensitive ptychography that enables full optical property measurement of vector light is proposed. An optimized reconstruction strategy, first calibrating the propagation direction and then performing faithful retrieval, is established. This method avoids multiple image acquisitions with various polarizer configurations and significantly improves the measurement accuracy by correlating the intensity and position of different polarization components. The capability of the proposed method to quantify anisotropic parameters of optical materials and polarization properties of vector probe is demonstrated by experiment.

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High-resolution polarization-sensitive Fourier ptychography microscopy using a high numerical aperture dome illuminator

Cited by 5 publications

References 26 publications

Mapping surface flaws on float glass through Fourier ptychographic quantitative phase imaging

Mapping surface flaws on float glass through Fourier ptychographic quantitative phase imaging

Optical ptychography for biomedical imaging: recent progress and future directions [Invited]

Mixed-state ptychography for quantitative optical properties measurement of vector beam

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