62   Chapter Two


               31. C. Q. Tran, A. G. Peele, A. Roberts, K. A. Nugent, D. Paterson, and I. McNulty,
                  “X-ray imaging: A generalized approach using phase-space tomography,”
                  J. Opt. Soc. Am. 22(8): 1691–1700 (2005).
               32. X. Liu and K. H. Brenner, “Reconstruction of two-dimensional complex ampli-
                  tudes from intensity measurements,” Opt. Comm. 225: 19–30 (2003).
               33. X. Liu, C. Hruscha, and K. H. Brenner, “Efficient reconstruction of two-
                  dimensional complex amplitudes utilizing the redundancy of the ambigu-
                  ity function,” Applied Optics, feature issue on phase-space representations in
                  Optics, 47(22): E1–E7 (2008).
               34. J. P. Guigay, E. Pagot, and P. Cloetens, “Fourier optics approach to X-ray
                  analyser-based imaging,” Opt. Comm. 270: 180–188 (2007).
               35. P. Cloetens, W. Ludwig, J. Baruchel, D. Van Dyck, J. Van Landuyt, J. P. Guigay,
                  and M. Schlenker, “Holotomography: Quantitative phase tomography with
                  micrometer resolution using hard synchrotron radiation x rays,” Appl. Phys.
                  Lett. 75: 2912–2914 (1999).
               36. S. Zabler, P. Cloetens, J. P. Guigay, J. Baruchel, and M. Schlenker, “Optimization
                  of phase contrast imaging using hard x rays,” Rev. Sci. Instr. 76: 073705 (2005).
               37. M. Op de Beeck, D. Van Dyck, and W. Coene, “Wave-function reconstruction
                  in HRTEM: The parabola method,” Ultramicroscopy 64: 167–183 (1996).
               38. J. P. Guigay, M. Langer, R. Boistel, and P. Cloetens, “Mixed transfer function
                  and transport of intensity approach for phase retrieval in the Fresnel region,”
                  Opt. Lett. 32(12): 1617–1619 (2007).