Single-shot soft-x-ray digital holographic microscopy with an adjustable field of view and magnification

Ming Chang Chou; Ru Ping Huang; Ping Hsun Lin; Chang Tai Huang; Szu Yuan Chen; Hsu Hsin Chu; Jyhpyng Wang; Jiunn Yuan Lin

doi:10.1364/OL.34.000623

Single-shot soft-x-ray digital holographic microscopy with an adjustable field of view and magnification

Ming Chang Chou, Ru Ping Huang, Ping Hsun Lin, Chang Tai Huang, Szu Yuan Chen, Hsu Hsin Chu, Jyhpyng Wang, Jiunn Yuan Lin

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

9 Scopus citations

Abstract

Single-shot digital holographic microscopy with an adjustable field of view and magnification was demonstrated by using a tabletop 32.8 nm soft-x-ray laser. The holographic images were reconstructed with a two-dimensional fast-Fourier-transform algorithm, and a new configuration of imaging was developed to over-come the pixel-size limit of the recording device without reducing the effective NA. The image of an atomicforce-microscope cantilever was reconstructed with a lateral resolution of 480 nm, and the phase contrast image of a 20 nm carbon mesh foil demonstrated that profiles of sample thickness can be reconstructed with few-nanometers uncertainty. The ultrashort x-ray pulse duration combined with single-shot capability offers great advantage for flash imaging of delicate samples.

Original language	English
Pages (from-to)	623-625
Number of pages	3
Journal	Optics Letters
Volume	34
Issue number	5
DOIs	https://doi.org/10.1364/OL.34.000623
State	Published - 1 Mar 2009

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abstract = "Single-shot digital holographic microscopy with an adjustable field of view and magnification was demonstrated by using a tabletop 32.8 nm soft-x-ray laser. The holographic images were reconstructed with a two-dimensional fast-Fourier-transform algorithm, and a new configuration of imaging was developed to over-come the pixel-size limit of the recording device without reducing the effective NA. The image of an atomicforce-microscope cantilever was reconstructed with a lateral resolution of 480 nm, and the phase contrast image of a 20 nm carbon mesh foil demonstrated that profiles of sample thickness can be reconstructed with few-nanometers uncertainty. The ultrashort x-ray pulse duration combined with single-shot capability offers great advantage for flash imaging of delicate samples.",

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AU - Chou, Ming Chang

AU - Huang, Ru Ping

AU - Lin, Ping Hsun

AU - Huang, Chang Tai

AU - Chen, Szu Yuan

AU - Chu, Hsu Hsin

AU - Wang, Jyhpyng

AU - Lin, Jiunn Yuan

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N2 - Single-shot digital holographic microscopy with an adjustable field of view and magnification was demonstrated by using a tabletop 32.8 nm soft-x-ray laser. The holographic images were reconstructed with a two-dimensional fast-Fourier-transform algorithm, and a new configuration of imaging was developed to over-come the pixel-size limit of the recording device without reducing the effective NA. The image of an atomicforce-microscope cantilever was reconstructed with a lateral resolution of 480 nm, and the phase contrast image of a 20 nm carbon mesh foil demonstrated that profiles of sample thickness can be reconstructed with few-nanometers uncertainty. The ultrashort x-ray pulse duration combined with single-shot capability offers great advantage for flash imaging of delicate samples.

AB - Single-shot digital holographic microscopy with an adjustable field of view and magnification was demonstrated by using a tabletop 32.8 nm soft-x-ray laser. The holographic images were reconstructed with a two-dimensional fast-Fourier-transform algorithm, and a new configuration of imaging was developed to over-come the pixel-size limit of the recording device without reducing the effective NA. The image of an atomicforce-microscope cantilever was reconstructed with a lateral resolution of 480 nm, and the phase contrast image of a 20 nm carbon mesh foil demonstrated that profiles of sample thickness can be reconstructed with few-nanometers uncertainty. The ultrashort x-ray pulse duration combined with single-shot capability offers great advantage for flash imaging of delicate samples.

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Single-shot soft-x-ray digital holographic microscopy with an adjustable field of view and magnification

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