High-resolution (diffraction limited) single-shot multiplexed coded-aperture ptychography

Gil Ilan Haham; Or Peleg; Pavel Sidorenko; Oren Cohen

doi:10.1088/2040-8986/ab7f23

High-resolution (diffraction limited) single-shot multiplexed coded-aperture ptychography

Gil Ilan Haham, Or Peleg, Pavel Sidorenko, Oren Cohen

Technion - Israel Institute of Technology

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

Abstract

We propose and numerically explore a method that upgrades a conventional single-shot microscope into a single-shot ptychographic microscope, without impairing its optical performance. It is based on splitting the microscope's intermediate image plane into multiple replicas, and detecting a set of their coded Fourier transform magnitudes, using a different sensor for each replica. To code each beam, it is transmitted through a distinct coding mask. A ptychographic phase-retrieval algorithm is used to reconstruct the imaged object's complex-valued transmission function. The proposed method also enables ultrahigh-speed imaging by using a pulse-burst as illumination and applying a multi-state reconstruction algorithm. This approach paves the way to both single-frame and ultrahigh-speed, diffraction-limited microscopy of complex-valued objects.

Original language	English
Article number	075608
Journal	Journal of Optics
Volume	22
Issue number	7
DOIs	https://doi.org/10.1088/2040-8986/ab7f23
State	Published - 25 Jun 2020

Keywords

Ptychography
coded diffraction
ptychography
quantitative phase microscopy

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics

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10.1088/2040-8986/ab7f23License: CC BY

Cite this

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title = "High-resolution (diffraction limited) single-shot multiplexed coded-aperture ptychography",

abstract = "We propose and numerically explore a method that upgrades a conventional single-shot microscope into a single-shot ptychographic microscope, without impairing its optical performance. It is based on splitting the microscope's intermediate image plane into multiple replicas, and detecting a set of their coded Fourier transform magnitudes, using a different sensor for each replica. To code each beam, it is transmitted through a distinct coding mask. A ptychographic phase-retrieval algorithm is used to reconstruct the imaged object's complex-valued transmission function. The proposed method also enables ultrahigh-speed imaging by using a pulse-burst as illumination and applying a multi-state reconstruction algorithm. This approach paves the way to both single-frame and ultrahigh-speed, diffraction-limited microscopy of complex-valued objects. ",

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author = "\{Ilan Haham\}, Gil and Or Peleg and Pavel Sidorenko and Oren Cohen",

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AU - Ilan Haham, Gil

AU - Peleg, Or

AU - Sidorenko, Pavel

AU - Cohen, Oren

PY - 2020/6/25

Y1 - 2020/6/25

N2 - We propose and numerically explore a method that upgrades a conventional single-shot microscope into a single-shot ptychographic microscope, without impairing its optical performance. It is based on splitting the microscope's intermediate image plane into multiple replicas, and detecting a set of their coded Fourier transform magnitudes, using a different sensor for each replica. To code each beam, it is transmitted through a distinct coding mask. A ptychographic phase-retrieval algorithm is used to reconstruct the imaged object's complex-valued transmission function. The proposed method also enables ultrahigh-speed imaging by using a pulse-burst as illumination and applying a multi-state reconstruction algorithm. This approach paves the way to both single-frame and ultrahigh-speed, diffraction-limited microscopy of complex-valued objects.

AB - We propose and numerically explore a method that upgrades a conventional single-shot microscope into a single-shot ptychographic microscope, without impairing its optical performance. It is based on splitting the microscope's intermediate image plane into multiple replicas, and detecting a set of their coded Fourier transform magnitudes, using a different sensor for each replica. To code each beam, it is transmitted through a distinct coding mask. A ptychographic phase-retrieval algorithm is used to reconstruct the imaged object's complex-valued transmission function. The proposed method also enables ultrahigh-speed imaging by using a pulse-burst as illumination and applying a multi-state reconstruction algorithm. This approach paves the way to both single-frame and ultrahigh-speed, diffraction-limited microscopy of complex-valued objects.

KW - Ptychography

KW - coded diffraction

KW - ptychography

KW - quantitative phase microscopy

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U2 - 10.1088/2040-8986/ab7f23

DO - 10.1088/2040-8986/ab7f23

M3 - مقالة

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VL - 22

JO - Journal of Optics

JF - Journal of Optics

IS - 7

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ER -

High-resolution (diffraction limited) single-shot multiplexed coded-aperture ptychography

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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