Open AccessHigh numerical aperture reflection mode coherent diffraction microscopy using off-axis apertured illumination
Author(s) -
Dennis F. Gardner,
Bosheng Zhang,
Matthew D. Seaberg,
Leigh S. Martin,
Daniel E. Adams,
Farhad Salmassi,
Eric M. Gullikson,
Henry C. Kapteyn,
Margaret M. Murnane
Publication year - 2012
Publication title -
optics express
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.394
H-Index - 271
ISSN - 1094-4087
DOI - 10.1364/oe.20.019050
Subject(s) - optics , pinhole (optics) , coherent diffraction imaging , diffraction , phase retrieval , reflection (computer programming) , numerical aperture , coded aperture , aperture (computer memory) , fourier transform , physics , ptychography , computer science , detector , wavelength , programming language , quantum mechanics , acoustics
We extend coherent diffraction imaging (CDI) to a high numerical aperture reflection mode geometry for the first time. We derive a coordinate transform that allows us to rewrite the recorded far-field scatter pattern from a tilted object as a uniformly spaced Fourier transform. Using this approach, FFTs in standard iterative phase retrieval algorithms can be used to significantly speed up the image reconstruction times. Moreover, we avoid the isolated sample requirement by imaging a pinhole onto the specimen, in a technique termed apertured illumination CDI. By combining the new coordinate transformation with apertured illumination CDI, we demonstrate rapid high numerical aperture imaging of samples illuminated by visible laser light. Finally, we demonstrate future promise for this technique by using high harmonic beams for high numerical aperture reflection mode imaging.
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