Scanning transmission X-ray microscopy with a segmented detector

M. Feser; C. Jacobsen; P. Rehak; G. DeGeronimo

doi:doi:10.1051/jp4:20030138

Issue		J. Phys. IV France Volume 104, March 2003


Page(s)		529 - 534
DOI		https://doi.org/10.1051/jp4:20030138

J. Phys. IV France 104 (2003) 529
DOI: 10.1051/jp4:20030138

Scanning transmission X-ray microscopy with a segmented detector

M. Feser¹, C. Jacobsen¹, P. Rehak² and G. DeGeronimo²

¹ Department of Physics and Astronomy, SUNY Stony Brook, U.S.A.
² Instrumentation Division, Brookhaven National Laboratory, U.S.A.

Abstract
A segmented silicon detector has been developed for the Stony Brook soft x-ray scanning transmission x-ray microscope. The detector combines good detective quantum efficiency (90% at 520 eV) and low noise ( $\approx$ 5 photons/channel/integration at 520 eV) with the ability of having up to 10 independent sensitive regions that are matched to the microscope geometry. In addition to the usual bright field images, differential phase contrast images and dark field images are recorded simultaneously in one scan. A Fourier filtering method has been employed to recover an estimate of the sample absorption and phase shift from the partially coherent images collected on the detector segments. A reconstruction of a Germanium test pattern exhibits good agreement between the predictions from the tabulated x-ray optical constants and the experiment.

Purchase access: €15

Unlimited access to the full article
Instant PDF download

Homepage

Table of Contents

Previous article Next article

Article contents

Services

Articles citing this article
CrossRef (17)
Same authors
- Google Scholar
- EDP Sciences database
- PubMed

Recommend this article
Download citation