Half of wavefunction information is undetected by conventional transmission electron microscopy (CTEM) as only the intensity, and not the phase, of an image is recorded. Following successful applications of deep learning to optical hologram phase recovery, we have developed neural networks to recover phases from CTEM intensities for new datasets containing 98340 exit wavefunctions. Wavefunctions were simulated with clTEM multislice propagation for 12789 materials from the Crystallography Open Database. Our networks can recover 224x224 wavefunctions in ~25 ms for a large range of physical hyperparameters and materials, and we demonstrate that performance improves as the distribution of wavefunctions is restricted. Phase recovery with deep le...
Microscopy plays an important role in providing tools to microscopically observe objects and their s...
There are many different strategies that allow the solving of the well-known phase problem correspon...
Digital holography imaging utilizes the special properties of light and photons to capture the detai...
Supplementary information for our paper "Exit Wavefunction Reconstruction from Single Transmission E...
In this study we explore the possibility to use deep learning for the reconstruction of phase images...
Reconstruction of the exit wave function is an important route to interpreting high-resolution trans...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. The exit wave is the state of a uniform pl...
We report the development of deep-learning coherent electron diffractive imaging at subangstrom reso...
The usefulness of stochastic algorithms to retrieve the exit-plane wave function from periodic high-...
Quantitative phase imaging has been of interest to the science and engineering community and has bee...
The exit wave is the state of a uniform plane incident electron wave exiting immediately after passi...
AbstractAberration corrected Transmission Electron Microscope (TEM) images can currently resolve inf...
Phase retrieval approaches based on deep learning (DL) provide a framework to obtain phase informati...
Digital holography is a well-known method to perform three-dimensional imaging by recording the ligh...
Images generated with a transmission electron microscope (TEM) can reveal information up to the scal...
Microscopy plays an important role in providing tools to microscopically observe objects and their s...
There are many different strategies that allow the solving of the well-known phase problem correspon...
Digital holography imaging utilizes the special properties of light and photons to capture the detai...
Supplementary information for our paper "Exit Wavefunction Reconstruction from Single Transmission E...
In this study we explore the possibility to use deep learning for the reconstruction of phase images...
Reconstruction of the exit wave function is an important route to interpreting high-resolution trans...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. The exit wave is the state of a uniform pl...
We report the development of deep-learning coherent electron diffractive imaging at subangstrom reso...
The usefulness of stochastic algorithms to retrieve the exit-plane wave function from periodic high-...
Quantitative phase imaging has been of interest to the science and engineering community and has bee...
The exit wave is the state of a uniform plane incident electron wave exiting immediately after passi...
AbstractAberration corrected Transmission Electron Microscope (TEM) images can currently resolve inf...
Phase retrieval approaches based on deep learning (DL) provide a framework to obtain phase informati...
Digital holography is a well-known method to perform three-dimensional imaging by recording the ligh...
Images generated with a transmission electron microscope (TEM) can reveal information up to the scal...
Microscopy plays an important role in providing tools to microscopically observe objects and their s...
There are many different strategies that allow the solving of the well-known phase problem correspon...
Digital holography imaging utilizes the special properties of light and photons to capture the detai...