Conference papers
Kyrollos Yanny; Nick Antipa; William Liberti; Sam Dehaeck; Kristina Monakhova; Fanglin Linda Liu; Konlin Shen; Ren Ng; Laura Waller
Compressed Sensing 3D Fluorescence Microscopy Using Optimized Phase Mask Inproceedings
In: Imaging and Applied Optics Congress, pp. CW4B.5, Optical Society of America, 2020.
Abstract | Links | BibTeX | Tags: Gradient index lenses; Light fields; Optical design; Three dimensional microscopy; Three dimensional reconstruction; Three dimensional sensing
@inproceedings{Yanny:20,
title = {Compressed Sensing 3D Fluorescence Microscopy Using Optimized Phase Mask},
author = {Kyrollos Yanny and Nick Antipa and William Liberti and Sam Dehaeck and Kristina Monakhova and Fanglin Linda Liu and Konlin Shen and Ren Ng and Laura Waller},
url = {http://www.osapublishing.org/abstract.cfm?URI=COSI-2020-CW4B.5},
year = {2020},
date = {2020-01-01},
booktitle = {Imaging and Applied Optics Congress},
journal = {Imaging and Applied Optics Congress},
pages = {CW4B.5},
publisher = {Optical Society of America},
abstract = {We demonstrate a single-shot miniature 3D computational microscope with an optimized phase encoder. Our method uses sparsity-based reconstruction to achieve a 2.76-m lateral and 15،nm axial resolution across most of the 900 x 700 x 390،nm3 volume.},
keywords = {Gradient index lenses; Light fields; Optical design; Three dimensional microscopy; Three dimensional reconstruction; Three dimensional sensing},
pubstate = {published},
tppubtype = {inproceedings}
}
We demonstrate a single-shot miniature 3D computational microscope with an optimized phase encoder. Our method uses sparsity-based reconstruction to achieve a 2.76-m lateral and 15،nm axial resolution across most of the 900 x 700 x 390،nm3 volume.