2021
DOI: 10.1107/s1600577521008638
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Hard X-ray ptychography at Taiwan Photon Source at 11–20 nm spatial resolution

Abstract: X-ray ptychography, a technique based on scanning and processing of coherent diffraction patterns, is a non-destructive imaging technique with a high spatial resolution far beyond the focused beam size. Earlier demonstrations of hard X-ray ptychography at Taiwan Photon Source (TPS) using an in-house program successfully recorded the ptychographic diffraction patterns from a gold-made Siemens star as a test sample and retrieved the finest inner features of 25 nm. Ptychography was performed at two beamlines with… Show more

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Cited by 4 publications
(2 citation statements)
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“…Studies have been performed using a transmission X-ray microscope [ 630 ] and using a technique moving beyond the limitation of the optics in 2D and in 3D [ 631 ]. The latter requires retrieving the sample’s phase and the amplitude of sample using a technique referred to as ptychography [ 632 ] without a lens [ 633 , 634 ], and which can be carried out in 2D, 3D, and 4D [ 635 ] and has been used in various fields using X-ray or electron microscopy [ 292 , 636 ]. In dental research, the technique is limited [ 78 , 413 , 637 , 638 ] and X-ray ptychography ( Figure 8 f) has made it possible to characterise human dentine (energy of 6.2 keV) with a spatial resolution of 158 nm [ 413 ] using 3D ptychography and recently to map carious enamel from a lamella with soft X-ray (energy of 1 keV and reconstruction performed with a pixel size of 8 nm) [ 78 ].…”
Section: Synchrotron (Circular Particle Accelerator)mentioning
confidence: 99%
“…Studies have been performed using a transmission X-ray microscope [ 630 ] and using a technique moving beyond the limitation of the optics in 2D and in 3D [ 631 ]. The latter requires retrieving the sample’s phase and the amplitude of sample using a technique referred to as ptychography [ 632 ] without a lens [ 633 , 634 ], and which can be carried out in 2D, 3D, and 4D [ 635 ] and has been used in various fields using X-ray or electron microscopy [ 292 , 636 ]. In dental research, the technique is limited [ 78 , 413 , 637 , 638 ] and X-ray ptychography ( Figure 8 f) has made it possible to characterise human dentine (energy of 6.2 keV) with a spatial resolution of 158 nm [ 413 ] using 3D ptychography and recently to map carious enamel from a lamella with soft X-ray (energy of 1 keV and reconstruction performed with a pixel size of 8 nm) [ 78 ].…”
Section: Synchrotron (Circular Particle Accelerator)mentioning
confidence: 99%
“…Earlier test of hard X-ray ptychography has been performed in the beamlines TPS 25A and TPS 23A at Taiwan Photon Source (TPS), where the hard X-rays were focused by a pair of Kirkpatrick-Baez mirrors and a pair of nested Montel mirrors. The specimen for the test was a gold-made Siemens star with the finest feature of 25 nm, and the spatial resolution of the retrieved images determined by half-bit threshold of Fourier shell correlation is 11 nm [1]. We apply the optimized Fermat spiral trajectory [2] during the scanning of the ptychography, ePIE [3] as the phase retrieving algorism, position correction [4] and mixture-state [5] method to extend the tolerance of errors arising from the non-ideal sources and the beam-pointing instabilities.…”
mentioning
confidence: 99%