Peng Li scite author profile

Ptychography is a form of Coherent Diffractive Imaging, where diffraction patterns are processed by iterative algorithms to recover an image of a specimen. Although mostly applied in two dimensions, ptychography can be extended to produce three dimensional images in two ways: via multi-slice ptychography or ptychographic tomography. Ptychographic tomography relies on 2D ptychography to supply projections to conventional tomographic algorithms, whilst multi-slice ptychography uses the redundancy in ptychographic data to split the reconstruction into a series of axial slices. Whilst multi-slice ptychography can handle multiple-scattering thick specimens and has a much smaller data requirement than ptychographic tomography, its depth resolution is relatively poor. Here we propose an imaging modality that combines the benefits of the two approaches, enabling isotropic 3D resolution imaging of thick specimens with a small number of angular measurements. Optical experiments validate our proposed method.

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Breaking ambiguities in mixed state ptychography

Edo

Batey

et al. 2016

Opt. Express

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Separation of three-dimensional scattering effects in tilt-series Fourier ptychography

Batey

Edo

et al. 2015

Ultramicroscopy

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Ptychographic inversion via Wigner distribution deconvolution: Noise suppression and probe design

Edo

Rodenburg

2014

Ultramicroscopy

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Modal decomposition of a propagating matter wave via electron ptychography

Cao

Kok

et al. 2016

Phys. Rev. A

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2 Abstract:We employ ptychography, a phase-retrieval imaging technique, to show experimentally for the first time that a partially coherent high-energy matter (electron) wave emanating from an extended source can be decomposed into a set of mutually independent modes of minimal rank. Partial coherence significantly determines the optical transfer properties of an electron microscope and so there has been much work on this subject. However, previous studies have employed forms of interferometry to determine spatial coherence between discrete points in the wavefield. Here we use the density matrix to derive a formal quantum mechanical description of electron ptychography and use it to measure a full description of the spatial coherence of a propagating matter wavefield, at least to the within the fundamental uncertainties of the measurements we can obtain.

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4th generation synchrotron source boosts crystalline imaging at the nanoscale

Allain

Grünewald

et al. 2022

Light Sci Appl

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New 4th-generation synchrotron sources, with their increased brilliance, promise to greatly improve the performances of coherent X-ray microscopy. This perspective is of major interest for crystal microscopy, which aims at revealing the 3D crystalline structure of matter at the nanoscale, an approach strongly limited by the available coherent flux. Our results, based on Bragg ptychography experiments performed at the first 4th-generation synchrotron source, demonstrate the possibility of retrieving a high-quality image of the crystalline sample, with unprecedented quality. Importantly, the larger available coherent flux produces datasets with enough information to overcome experimental limitations, such as strongly deteriorated scanning conditions. We show this achievement would not be possible with 3rd-generation sources, a limit that has inhibited the development of this otherwise powerful microscopy method, so far. Hence, the advent of next-generation synchrotron sources not only makes Bragg ptychography suitable for high throughput studies but also strongly relaxes the associated experimental constraints, making it compatible with a wider range of experimental set-ups at the new synchrotrons.

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Joint estimation of object and probes in vectorial ptychography

Baroni¹,

Allain²,

Li³

et al. 2019

Opt. Express

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Vectorial ptychography has been recently introduced to reconstruct the Jones matrix of an anisotropic object by means of series of ptychographic measurements performed using a set of polarized illumination probes in conjugation with various analyzers. So far, the probes were assumed to be completely known (amplitude, wavefront, state of polarization), which is rarely the case in practice. Here we address the issue of the joint estimating of the set of polarized illumination probes together with the Jones matrix of an anisotropic object in vectorial ptychography. We propose an algorithm based on a conjugate gradient strategy. Experimental results are reported, showing an improvement on the object estimate, in addition to a precise reconstruction of the probes.

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12 3

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Peng Li

Further improvements to the ptychographical iterative engine

Multi-slice ptychographic tomography

Breaking ambiguities in mixed state ptychography

Separation of three-dimensional scattering effects in tilt-series Fourier ptychography

Ptychographic inversion via Wigner distribution deconvolution: Noise suppression and probe design

Modal decomposition of a propagating matter wave via electron ptychography

4th generation synchrotron source boosts crystalline imaging at the nanoscale

Joint estimation of object and probes in vectorial ptychography

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