[1] Momose A, Fukuda J. Phase-contrast radiographs of nonstained rat cerebellar specimen[J]. Medical Physics, 1995, 22(4): 375-379.
[2] Bonse U, Hart M. An X-ray interferometer with long separated interfering beam paths[J]. Applied Physics Letters, 1965, 7(4): 99-100.
[3] Hosoya S, Ando M. X-Ray topographic observation of antiferromagnetic domain boundaries in chromium[J]. Physical Review Letters, 1971, 26(6): 321-323.
[4] Momose A, Takeda T, Itai Y, et al.. Phase-contrast X ray computed tomography for observing biological soft tissues[J]. Nature Medicine, 1996, 2(4): 473-475.
[5] Davis T J, Gao D, Gureyev T E, et al.. Phase-contrast imaging of weakly absorbing materials using hard X-rays[J]. Nature, 1995, 373 (6515): 595-598.
[6] Chapman D, Thomlinson W, Johnston R E, et al.. Diffraction enhanced x-ray imaging[J]. Physics in Medicine and Biology, 1997, 42(11): 2015-2025.
[8] Ingal V N, Beliaevskaya E A. X-ray plane-wave tomography observation of the phase contrast from a non-crystalline object[J]. Journal of Physics D: Applied Physics, 1995, 28(11): 2314-2317.
[9] Wilkins S W, Gureyev T E, Gao D, et al.. Phase-contrast imaging using polychromatic hard X-rays[J]. Nature, 1996, 384(6607): 335- 338.
[10] David C, N hammer B, Solak H H, et al.. Differential x-ray phase contrast imaging using a shearing interferometer[J]. Applied Physics Letters, 2002, 81(17): 3287-3289.
[11] Momose A. Phase-sensitive imaging and phase tomography using X-ray interferometers[J]. Optics Express, 2003, 11(19): 2303-2314.
[12] Pfeiffer F, Weitkamp T, Bunk O, et al.. Phase retrieval and differential phase-contrast imaging with low-brilliance X-ray sources[J]. Nature Physics, 2006, 2(4): 258-261.
[13] Pfeiffer F, Bech M, Bunk O, et al.. Hard-X-ray dark-field imaging using a grating interferometer[J]. Nature Materials, 2008, 7(2): 134- 137.
[18] Xiao Tiqiao, Xie Honglan, Deng Biao, et al.. Progresses of X-Ray imaging methodology and its applications at shanghai synchrotron radiation facility[J]. Acta Optica Sinica, 2014, 34(1): 0100001.
[19] Du Y, Liu X, Huang J H, et al.. Sampling grating approach for X-ray differential phase contrast imaging[J]. Optics Express, 2015, 23(10): 12712-12719.
[20] Zhu P P, Zhang K, Wang Z L, et al.. Low-dose, simple, and fast grating-based X-ray phase-contrast imaging[C]. Proceedings of the National Academy of Sciences, 2010, 107(31): 13576-13581.
[21] Du Y, Liu X, Lei Y H, et al.. Non-absorption grating approach for X-ray phase contrast imaging[J]. Optics Express, 2011, 19(23): 22669- 22674.
[22] Momose A, Yashiro W, Kido K, et al.. X-ray phase imaging: from synchrotron to hospital[J]. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 2014, 372(2010): 20130023.
[23] Han Yueping, Chen Zhiqiang, Zhang Li, et al.. Developments of X-ray grating imaging based on Talbot interferometry[J]. Laser & Optoelectronics Progress, 2012, 49(7): 070002.
[25] Noda D, Tsujii H, Takahashi N, et al.. Fabrication of high precision X-ray mask for X-ray grating of X-ray Talbot interferometer[J]. Microsystem Technologies, 2010, 16(89): 1309-1313.
[26] Lei Y H, Du Y, Li J, et al.. Application of Bi absorption gratings in grating-based X-ray phase contrast imaging[J]. Applied Physics Express, 2013, 6(11): 117301.
[27] Lei Y H, Du Y, Li J, et al.. Fabrication of x-ray absorption gratings via micro-casting for grating-based phase contrast imaging[J]. Journal of Micromechanics & Microengineering, 2014, 24(1): 015007.
[28] Lei Y H, Liu X, Guo J C, et al.. Development of x-ray scintillator functioning also as an analyser grating used in grating-based x-ray differential phase contrast imaging[J]. Chinese Physics B, 2011, 20(4): 042901.