论文信息 - Phase Retrieval in X-ray Phase-contrast Imaging Suitable for Tomography - 字舞流文

Phase Retrieval in X-ray Phase-contrast Imaging Suitable for Tomography

In-line phase-contrast X-ray imaging provides images where both absorption and refraction contribute. For quantitative analysis of these images, the phase needs to be retrieved numerically. There are many phase-retrieval methods available. Those suitable for phase-contrast tomography, i.e., non-iterative phase-retrieval methods that use only one image at each projection angle, all follow the same pattern though derived in different ways. We outline this pattern and use it to compare the methods to each other, considering only phase-retrieval performance and not the additional effects of tomographic reconstruction. We also outline derivations, approximations and assumptions, and show which methods are similar or identical and how they relate to each other. A simple scheme for choosing reconstruction method is presented, and numerical phase-retrieval performed for all methods.

Anna Burvall | Ulf Lundström | Hans M Hertz | O. Bunk | K. Nugent | A. Peele | A. Mancuso | T. Gureyev | D. Paganin | B. Dhal | J. Baruchel | R. E. Johnston | M. Schlenker | A. Pogany | T. Weitkamp | I. Snigireva | H. Brismar | H. Hertz | W. Thomlinson | N. Gmür | F. Arfelli | S. Mayo | A. Burvall | J. Guigay | Z. Barnea | U. Lundström | D. Larsson | Y. Nesterets | P. Takman | M. Otendal | Daniel H Larsson | Per A C Takman | H. Liu | R. Menk | L. Scott | C. David | H. M. Hertz | C. Tran | D. Paterson | S. Wilkins | T E Gureyev | A. C. Takman | T J Davis | D. Gao | A. W. Stevenson | A Snigirev | V. Kohn | S. Kuznetsov | I. Schelokov | K A Nugent | D. F. Cookson | P Cloetens | R. Barrett | D. Chapman | D. Washburn | E. Pisano | Z. Zhong | D. Sayers | F Pfeiffer | T Tuohimaa | D. E. Myers | A Groso | R. Abela | M. Stampanoni | X Wu | D Paganin | P. R. Wilkins | M A Beltran | K. Uesugi | M. J. Kitchen | T. J. Davis | D. Turner | J. Hayes | R. Scholten | W. Stevenson | P. Miller | S. W. Stevenson | G R Myers

[1] K. Nugent. Coherent methods in the X-ray sciences , 2009, 0908.3064.

[2] K. Nugent,et al. Quantitative Phase Imaging Using Hard X Rays. , 1996, Physical review letters.

[3] Hong Liu,et al. A new theory of phase-contrast x-ray imaging based on Wigner distributions. , 2004, Medical physics.

[4] R Grella,et al. Fresnel propagation and diffraction and paraxial wave equation , 1982 .

[5] J. Goodman. Introduction to Fourier optics , 1969 .

[6] M Stampanoni,et al. Implementation of a fast method for high resolution phase contrast tomography. , 2006, Optics express.

[7] Andrei V. Bronnikov,et al. Reconstruction formulas in phase-contrast tomography , 1999 .

[8] S. Wilkins,et al. Simultaneous phase and amplitude extraction from a single defocused image of a homogeneous object , 2002, Journal of microscopy.

[9] Yakov I Nesterets,et al. Some simple rules for contrast, signal-to-noise and resolution in in-line x-ray phase-contrast imaging. , 2008, Optics express.

[10] S. Wilkins,et al. Phase-contrast imaging using polychromatic hard X-rays , 1996, Nature.

[11] O. Bunk,et al. Phase retrieval and differential phase-contrast imaging with low-brilliance X-ray sources , 2006 .

[12] M. Teague. Deterministic phase retrieval: a Green’s function solution , 1983 .

[13] David M. Paganin,et al. Coherent X-Ray Optics , 2006 .

[14] R. Lewis,et al. Medical phase contrast x-ray imaging: current status and future prospects. , 2004, Physics in medicine and biology.

[15] Hans M. Hertz,et al. Phase-contrast x-ray imaging with a liquid-metal-jet-anode microfocus source , 2007 .

[16] Xizeng Wu,et al. X-Ray cone-beam phase tomography formulas based on phase-attenuation duality. , 2005, Optics Express.

[17] D Paterson,et al. X-ray phase imaging: Demonstration of extended conditions for homogeneous objects. , 2004, Optics express.

[18] V. N. Ingal,et al. X-ray plane-wave topography observation of the phase contrast from a non-crystalline object , 1995 .

[19] Timur E. Gureyev,et al. Refracting Röntgen’s rays: Propagation-based x-ray phase contrast for biomedical imaging , 2009 .

[20] Mj Martin Bastiaans. Application of the Wigner distribution function to partially coherent light , 1986 .

[21] E. Pisano,et al. Diffraction enhanced x-ray imaging. , 1997, Physics in medicine and biology.

[22] Keith A Nugent,et al. X-ray noninterferometric phase imaging: a unified picture. , 2007, Journal of the Optical Society of America. A, Optics, image science, and vision.

[23] Timur E. Gureyev,et al. Polychromatic cone-beam phase-contrast tomography , 2007 .

[24] U. Bonse,et al. AN X‐RAY INTERFEROMETER , 1965 .

[25] A. Authier,et al. Diffraction Physics , 1998 .

[26] S. Wilkins,et al. Phase-contrast imaging of weakly absorbing materials using hard X-rays , 1995, Nature.

[27] Robert A. Gonsalves,et al. Phase retrieval by differential intensity measurements , 1987 .

[28] A. Momose. Recent Advances in X-ray Phase Imaging , 2005 .

[29] P. Cloetens,et al. Phase objects in synchrotron radiation hard x-ray imaging , 1996 .

[30] A. Snigirev,et al. On the possibilities of x-ray phase contrast microimaging by coherent high-energy synchrotron radiation , 1995 .

[31] D. Paganin,et al. 2D and 3D X-ray phase retrieval of multi-material objects using a single defocus distance. , 2010, Optics express.

[32] Richard J. Fitzgerald,et al. Phase‐Sensitive X‐Ray Imaging , 2000 .

[33] Andrew Pogany,et al. Optical phase retrieval by use of first Born- and Rytov-type approximations. , 2004, Applied optics.

[34] P. Cloetens,et al. Optimization of phase contrast imaging using hard x rays , 2005 .

[35] K. Nugent,et al. Quantitative optical phase microscopy. , 1998, Optics letters.