Three-dimensional diffractive imaging for crystalline monolayers with one-dimensional compact support.

[1]  J. Zuo,et al.  Atomic Resolution Imaging of a Carbon Nanotube from Diffraction Intensities , 2003, Science.

[2]  Henry N. Chapman,et al.  Inversion of x-ray diffuse scattering to images using prepared objects , 2003 .

[3]  S. Marchesini,et al.  Experimental lensless soft-X-ray imaging using iterative algorithms: phasing diffuse scattering. , 2002, Acta crystallographica. Section A, Foundations of crystallography.

[4]  M. Howells,et al.  Phase recovery and lensless imaging by iterative methods in optical, X-ray and electron diffraction , 2002, Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.

[5]  V. Elser Phase retrieval by iterated projections. , 2001, Journal of the Optical Society of America. A, Optics, image science, and vision.

[6]  J. Spence,et al.  On Lensless Imaging of Organics with Neutrons, X-Rays, Helium Atoms and Low Energy Electrons: Damage and Iterative Phase Retrieval , 2001, Microscopy and Microanalysis.

[7]  J. Miao,et al.  Extending the methodology of X-ray crystallography to allow imaging of micrometre-sized non-crystalline specimens , 1999, Nature.

[8]  Gillet,et al.  Charge and momentum densities of cubic tetracyanoethylene and its insertion compounds. , 1999, Acta crystallographica. Section B, Structural science.

[9]  Kenneth H. Downing,et al.  Structure of the αβ tubulin dimer by electron crystallography , 1998, Nature.

[10]  J. Fienup Invariant error metrics for image reconstruction. , 1997, Applied optics.

[11]  Rick P. Millane,et al.  RECONSTRUCTING SYMMETRIC IMAGES FROM THEIR UNDERSAMPLED FOURIER INTENSITIES , 1997 .

[12]  R Henderson,et al.  Electron-crystallographic refinement of the structure of bacteriorhodopsin. , 1996, Journal of molecular biology.

[13]  Rick P. Millane,et al.  Phase problems for periodic images: Effects of support and symmetry , 1993 .

[14]  S. Marchesini,et al.  Imaging Without Lenses , 1992, Microscopy Today.

[15]  Rick P. Millane,et al.  Phase retrieval in crystallography and optics , 1990 .

[16]  J. H. Seldin,et al.  Numerical investigation of the uniqueness of phase retrieval , 1990 .

[17]  R. Read Improved Fourier Coefficients for Maps Using Phases from Partial Structures with Errors , 1986 .

[18]  G. Newsam,et al.  Necessary conditions for a unique solution to two‐dimensional phase recovery , 1984 .

[19]  J R Fienup,et al.  Phase retrieval algorithms: a comparison. , 1982, Applied optics.

[20]  James R. Fienup,et al.  Reconstruction of the support of an object from the support of its autocorrelation , 1982 .

[21]  R Diamond,et al.  Real-space refinement of the structure of hen egg-white lysozyme. , 1977, Journal of molecular biology.

[22]  P. Turner,et al.  Relativistic Hartree–Fock X‐ray and electron scattering factors , 1968 .

[23]  D. Sayre Some implications of a theorem due to Shannon , 1952 .

[24]  M. Howellsb,et al.  Image reconstruction from electron and X-ray diffraction patterns using iterative algorithms : experiment and simulation , 2002 .

[25]  øöö Blockinø Phase retrieval, error reduction algorithm, and Fienup variants: A view from convex optimization , 2002 .

[26]  L. Marks GENERAL SOLUTION FOR THREE-DIMENSIONAL SURFACE STRUCTURES USING DIRECT METHODS , 1999 .

[27]  K. Downing,et al.  X-Ray Holography of Fast-Frozen Hydrated Biological Samples , 1998 .

[28]  L. Lally The CCP 4 Suite — Computer programs for protein crystallography , 1998 .

[29]  G. Schmahl,et al.  X-ray microscopy and spectromicroscopy , 1998 .

[30]  Henry Stark,et al.  Image recovery: Theory and application , 1987 .

[31]  James R. Fienup,et al.  Reconstruction of a complex-valued object from the modulus of its Fourier transform using a support constraint , 1987 .

[32]  H. Jagodzinski Vector space and its application in crystal-structure investigation , 1959 .