Boosting Phase Contrast with a Grating Bonse-Hart Interferometer of 200 Nanometre Grating Period

Overview

Journal Philos Trans A Math Phys Eng Sci

Specialties Biomedical Engineering
Biophysics
Public Health

Date 2014 Jan 29

PMID 24470412

Citations 2

Authors

Han Wen

Andrew A Gomella

Ajay Patel

Douglas E Wolfe

Susanna K Lynch

Xianghui Xiao

Nicole Morgan

Affiliations

Soon will be listed here.

Abstract

We report on a grating Bonse-Hart interferometer for phase-contrast imaging with hard X-rays. The method overcomes limitations in the level of sensitivity that can be achieved with the well-known Talbot grating interferometer, and without the stringent spectral filtering at any given incident angle imposed by the classic Bonse-Hart interferometer. The device operates in the far-field regime, where an incident beam is split by a diffraction grating into two widely separated beams, which are redirected by a second diffraction grating to merge at a third grating, where they coherently interfere. The wide separation of the interfering beams results in large phase contrast, and in some cases absolute phase images are obtained. Imaging experiments were performed using diffraction gratings of 200 nm period, at 22.5 keV and 1.5% spectral bandwidth on a bending-magnetic beamline. Novel design and fabrication process were used to achieve the small grating period. Using a slitted incident beam, we acquired absolute and differential phase images of lightly absorbing samples. An advantage of this method is that it uses only phase modulating gratings, which are easier to fabricate than absorption gratings of the same periods.

Citing Articles

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References

Weitkamp T, Diaz A, David C, Pfeiffer F, Stampanoni M, Cloetens P . X-ray phase imaging with a grating interferometer. Opt Express. 2009; 13(16):6296-304. DOI: 10.1364/opex.13.006296. View

Wen H, Wolfe D, Gomella A, Miao H, Xiao X, Liu C . Interferometric hard x-ray phase contrast imaging at 204 nm grating period. Rev Sci Instrum. 2013; 84(1):013706. PMC: 3574100. DOI: 10.1063/1.4788910. View

Kemble C, Auxier J, Lynch S, Bennett E, Morgan N, Wen H . Grazing angle Mach-Zehnder interferometer using reflective phase gratings and a polychromatic, un-collimated light source. Opt Express. 2011; 18(26):27481-92. PMC: 3088511. DOI: 10.1364/OE.18.027481. View

Wen H, Bennett E, Hegedus M, Carroll S . Spatial harmonic imaging of X-ray scattering--initial results. IEEE Trans Med Imaging. 2008; 27(8):997-1002. PMC: 2882966. DOI: 10.1109/TMI.2007.912393. View

Yashiro W, Takeda Y, Takeuchi A, Suzuki Y, Momose A . Hard-X-ray phase-difference microscopy using a fresnel zone plate and a transmission grating. Phys Rev Lett. 2009; 103(18):180801. DOI: 10.1103/PhysRevLett.103.180801. View

Engelhardt M, Kottler C, Bunk O, David C, Schroer C, Baumann J . The fractional Talbot effect in differential x-ray phase-contrast imaging for extended and polychromatic x-ray sources. J Microsc. 2008; 232(1):145-57. DOI: 10.1111/j.1365-2818.2008.02072.x. View

Lynch S, Liu C, Morgan N, Xiao X, Gomella A, Mazilu D . Fabrication of 200 nanometer period centimeter area hard x-ray absorption gratings by multilayer deposition. J Micromech Microeng. 2012; 22(10):105007. PMC: 3468157. DOI: 10.1088/0960-1317/22/10/105007. View

Momose A . Phase-sensitive imaging and phase tomography using X-ray interferometers. Opt Express. 2009; 11(19):2303-14. DOI: 10.1364/oe.11.002303. View

Momose A, Fukuda J . Phase-contrast radiographs of nonstained rat cerebellar specimen. Med Phys. 1995; 22(4):375-9. DOI: 10.1118/1.597472. View

10.

Kim J, Cho I, Lee S, Kang H, Conley R, Liu C . Observation of the Talbot effect using broadband hard x-ray beam. Opt Express. 2010; 18(24):24975-82. DOI: 10.1364/OE.18.024975. View

11.

Cloetens P, Guigay J, De Martino C, Baruchel J, Schlenker M . Fractional Talbot imaging of phase gratings with hard x rays. Opt Lett. 1997; 22(14):1059-61. DOI: 10.1364/ol.22.001059. View