Intrinsic-Constrained Multichannel Ptychography under Randomly Modulated Beams

Ziling Qiao; Xiu Wen; Guancheng Huang; Ziyang Li; Yu Ji; Yiran Wang; Shutian Liu; Zhengjun Liu; Yutong Li

doi:10.1021/acsphotonics.5c01362

Intrinsic-Constrained Multichannel Ptychography under Randomly Modulated Beams

Ziling Qiao
, Xiu Wen
, Guancheng Huang
, Ziyang Li
, Yu Ji
, Yiran Wang
, Shutian Liu
, Zhengjun Liu
, Yutong Li^*

^*Corresponding author for this work

School of Physics, Harbin Institute of Technology
Tiangong University
Heilongjiang University

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

Abstract

To address the limitations in convergence speed and image fidelity in phase retrieval, we propose intrinsic-constrained multichannel ptychography under randomly modulated beams. With the combined effects of high overlap and randomly modulated probes, the convergence speed increases by more than 10-fold, allowing for image reconstruction within a few iterations. The parallel configuration of the arrays collectively amplifies the system numerical aperture, leading to a notable enhancement in resolution. Implementing in-process filtering in an intrinsic-constrained framework effectively reduces background noise while preserving gradient information. Our approach achieves fast high-fidelity imaging across an extensive field of view.

Original language	English
Pages (from-to)	649-655
Number of pages	7
Journal	ACS Photonics
Volume	13
Issue number	3
DOIs	https://doi.org/10.1021/acsphotonics.5c01362
State	Published - 4 Feb 2026
Externally published	Yes

Keywords

coherent diffraction imaging
in-process filtering
intrinsic-constrained
phase retrieval
ptychography

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10.1021/acsphotonics.5c01362

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abstract = "To address the limitations in convergence speed and image fidelity in phase retrieval, we propose intrinsic-constrained multichannel ptychography under randomly modulated beams. With the combined effects of high overlap and randomly modulated probes, the convergence speed increases by more than 10-fold, allowing for image reconstruction within a few iterations. The parallel configuration of the arrays collectively amplifies the system numerical aperture, leading to a notable enhancement in resolution. Implementing in-process filtering in an intrinsic-constrained framework effectively reduces background noise while preserving gradient information. Our approach achieves fast high-fidelity imaging across an extensive field of view.",

keywords = "coherent diffraction imaging, in-process filtering, intrinsic-constrained, phase retrieval, ptychography",

author = "Ziling Qiao and Xiu Wen and Guancheng Huang and Ziyang Li and Yu Ji and Yiran Wang and Shutian Liu and Zhengjun Liu and Yutong Li",

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AU - Qiao, Ziling

AU - Wen, Xiu

AU - Huang, Guancheng

AU - Li, Ziyang

AU - Ji, Yu

AU - Wang, Yiran

AU - Liu, Shutian

AU - Liu, Zhengjun

AU - Li, Yutong

PY - 2026/2/4

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N2 - To address the limitations in convergence speed and image fidelity in phase retrieval, we propose intrinsic-constrained multichannel ptychography under randomly modulated beams. With the combined effects of high overlap and randomly modulated probes, the convergence speed increases by more than 10-fold, allowing for image reconstruction within a few iterations. The parallel configuration of the arrays collectively amplifies the system numerical aperture, leading to a notable enhancement in resolution. Implementing in-process filtering in an intrinsic-constrained framework effectively reduces background noise while preserving gradient information. Our approach achieves fast high-fidelity imaging across an extensive field of view.

AB - To address the limitations in convergence speed and image fidelity in phase retrieval, we propose intrinsic-constrained multichannel ptychography under randomly modulated beams. With the combined effects of high overlap and randomly modulated probes, the convergence speed increases by more than 10-fold, allowing for image reconstruction within a few iterations. The parallel configuration of the arrays collectively amplifies the system numerical aperture, leading to a notable enhancement in resolution. Implementing in-process filtering in an intrinsic-constrained framework effectively reduces background noise while preserving gradient information. Our approach achieves fast high-fidelity imaging across an extensive field of view.

KW - coherent diffraction imaging

KW - in-process filtering

KW - intrinsic-constrained

KW - phase retrieval

KW - ptychography

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EP - 655

JO - ACS Photonics

JF - ACS Photonics

IS - 3

ER -

Intrinsic-Constrained Multichannel Ptychography under Randomly Modulated Beams

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Keywords

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