Modern electron tomography has progressed to higher resolution at lower doses by leveraging compressed sensing methods that minimize total variation (TV). However, these sparsity-emphasized reconstruction algorithms introduce tunable parameters that greatly influence the reconstruction quality. Here, Pareto front analysis shows that high-quality tomograms are reproducibly achieved when TV minimization is heavily weighted. However, in excess, compressed sensing tomography creates overly smoothed 3D reconstructions. Adding momentum into the gradient descent during reconstruction reduces the risk of over-smoothing and better ensures that compressed sensing is well behaved. For simulated data, the tedious process of tomography parameter selecti...
AbstractElectron tomography is an invaluable method for 3D cellular imaging. The technique is, howev...
Regularization has been introduced to electron tomography for enhancing the reconstruction quality. ...
Accepted Version of the publication: Nano Lett. 2011, 11, 11, 4666–4673. Publication Date: September...
Electron tomography (ET) is an increasingly important technique for examining the three-dimensional ...
Recently it has been shown that precise dose control and an increase in the overall acquisition spee...
Electron tomography (ET) is an increasingly important technique for the study of the three-dimension...
X-ray tomography is capable of imaging the interior of objects in three dimensions non-invasively, w...
Electron tomography in the physical sciences has become a powerful tool for nanomaterial analysis. ...
Electron tomography is widely employed for the 3D morphological characterization at the nanoscale. I...
This work has received financial support from FEDER/MINECO (MAT2017‐87579‐R, MAT2016‐81118‐P, and MT...
Artificial intelligence (AI) promises to reshape scientific inquiry and enable breakthrough discover...
Nanotechnology has revolutionised humanity's capability in building microscopic systems by manipulat...
Single particle cryo-electron microscopy has become a critical tool in structural biology over the l...
We designed a complete acquisition-reconstruction framework to reduce the radiation dosage in 3D sca...
© 2014 Dr. Mauro MaiorcaElectron Tomography is an established technique for producing detailed 3D im...
AbstractElectron tomography is an invaluable method for 3D cellular imaging. The technique is, howev...
Regularization has been introduced to electron tomography for enhancing the reconstruction quality. ...
Accepted Version of the publication: Nano Lett. 2011, 11, 11, 4666–4673. Publication Date: September...
Electron tomography (ET) is an increasingly important technique for examining the three-dimensional ...
Recently it has been shown that precise dose control and an increase in the overall acquisition spee...
Electron tomography (ET) is an increasingly important technique for the study of the three-dimension...
X-ray tomography is capable of imaging the interior of objects in three dimensions non-invasively, w...
Electron tomography in the physical sciences has become a powerful tool for nanomaterial analysis. ...
Electron tomography is widely employed for the 3D morphological characterization at the nanoscale. I...
This work has received financial support from FEDER/MINECO (MAT2017‐87579‐R, MAT2016‐81118‐P, and MT...
Artificial intelligence (AI) promises to reshape scientific inquiry and enable breakthrough discover...
Nanotechnology has revolutionised humanity's capability in building microscopic systems by manipulat...
Single particle cryo-electron microscopy has become a critical tool in structural biology over the l...
We designed a complete acquisition-reconstruction framework to reduce the radiation dosage in 3D sca...
© 2014 Dr. Mauro MaiorcaElectron Tomography is an established technique for producing detailed 3D im...
AbstractElectron tomography is an invaluable method for 3D cellular imaging. The technique is, howev...
Regularization has been introduced to electron tomography for enhancing the reconstruction quality. ...
Accepted Version of the publication: Nano Lett. 2011, 11, 11, 4666–4673. Publication Date: September...