TY - JOUR
AU - Charles Bevis
AU - Robert Karl
AU - Jonathan Reichanadter
AU - Dennis Gardner
AU - Christina Porter
AU - Elisabeth Shanblatt
AU - Michael Tanksalvala
AU - Giulia Mancini
AU - Henry Kapteyn
AU - Margaret Murnane
AU - Daniel Adams
AB - The ability to record large field-of-view images without a loss in spatial resolution is of crucial importance for imaging science. For most imaging techniques however, an increase in field-of-view comes at the cost of decreased resolution. Here we present a novel extension to ptychographic coherent diffractive imaging that permits simultaneous full-field imaging of multiple locations by illuminating the sample with spatially separated, interfering probes. This technique allows for large field-of-view imaging in amplitude and phase while maintaining diffraction-limited resolution, without an increase in collected data i.e. diffraction patterns acquired.
BT - Ultramicroscopy
DA - 2018-01
DO - 10.1016/j.ultramic.2017.08.018
N2 - The ability to record large field-of-view images without a loss in spatial resolution is of crucial importance for imaging science. For most imaging techniques however, an increase in field-of-view comes at the cost of decreased resolution. Here we present a novel extension to ptychographic coherent diffractive imaging that permits simultaneous full-field imaging of multiple locations by illuminating the sample with spatially separated, interfering probes. This technique allows for large field-of-view imaging in amplitude and phase while maintaining diffraction-limited resolution, without an increase in collected data i.e. diffraction patterns acquired.
PY - 2018
SE - 164
SP - 164
EP - 171
T2 - Ultramicroscopy
TI - Multiple beam ptychography for large field-of-view, high throughput, quantitative phase contrast imaging
UR - https://www.sciencedirect.com/science/article/pii/S0304399116303011
VL - 184
SN - 03043991
ER -