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Main Authors: Guenzing, Damian, Sasaki, Dayne Y., Ditter, Alexander S., Levitan, Abraham L., Gullikson, Eric M., Dhuey, Scott, Gashi, Arian, Ohldag, Hendrik, Roy, Sujoy, Shapiro, David A., Comin, Riccardo, Morley, Sophie A.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.20261
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author Guenzing, Damian
Sasaki, Dayne Y.
Ditter, Alexander S.
Levitan, Abraham L.
Gullikson, Eric M.
Dhuey, Scott
Gashi, Arian
Ohldag, Hendrik
Roy, Sujoy
Shapiro, David A.
Comin, Riccardo
Morley, Sophie A.
author_facet Guenzing, Damian
Sasaki, Dayne Y.
Ditter, Alexander S.
Levitan, Abraham L.
Gullikson, Eric M.
Dhuey, Scott
Gashi, Arian
Ohldag, Hendrik
Roy, Sujoy
Shapiro, David A.
Comin, Riccardo
Morley, Sophie A.
contents Scanning transmission X-ray microscopy and ptychography have become mature tools for high-resolution, element-specific imaging of nanoscale structures. However, transmission geometries impose stringent constraints on sample thickness and preparation, thereby limiting investigations of extended or bulk specimens, especially in the soft X-ray region. Here, we demonstrate reflection geometry soft X-ray ptychography as a robust imaging mode. Instrumental feasibility and spatial resolution are established using a lithographically defined Siemens star and barcode test pattern on a multilayer substrate. We empirically demonstrate a full-pitch spatial resolution of ca. 45 nm from Fourier ring correlation analysis of the reconstructed object. The results highlight the potential of the reflection geometry for nondestructive X-ray studies of materials without the need for transmissive samples.
format Preprint
id arxiv_https___arxiv_org_abs_2601_20261
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Soft X-ray Reflection Ptychography
Guenzing, Damian
Sasaki, Dayne Y.
Ditter, Alexander S.
Levitan, Abraham L.
Gullikson, Eric M.
Dhuey, Scott
Gashi, Arian
Ohldag, Hendrik
Roy, Sujoy
Shapiro, David A.
Comin, Riccardo
Morley, Sophie A.
Optics
Mesoscale and Nanoscale Physics
Materials Science
Scanning transmission X-ray microscopy and ptychography have become mature tools for high-resolution, element-specific imaging of nanoscale structures. However, transmission geometries impose stringent constraints on sample thickness and preparation, thereby limiting investigations of extended or bulk specimens, especially in the soft X-ray region. Here, we demonstrate reflection geometry soft X-ray ptychography as a robust imaging mode. Instrumental feasibility and spatial resolution are established using a lithographically defined Siemens star and barcode test pattern on a multilayer substrate. We empirically demonstrate a full-pitch spatial resolution of ca. 45 nm from Fourier ring correlation analysis of the reconstructed object. The results highlight the potential of the reflection geometry for nondestructive X-ray studies of materials without the need for transmissive samples.
title Soft X-ray Reflection Ptychography
topic Optics
Mesoscale and Nanoscale Physics
Materials Science
url https://arxiv.org/abs/2601.20261