Journal Publications

  1. “Difference structures from small angle and wide angle x-ray scattering” P. Nepal and D. K. Saldin
  2. determination of the relevant expansion coefficients of the 3D diffraction volumes of symmeric viruses from their average angular correlations”  H. C. Poon and D. K. Saldin, Structural Dynamics, 2, 041716 (2015).
  3. “Simulations on time-resolved structure determination of uncrystallized biomolecules in the presence of shot noise” K. Pande, M. Schmidt, P. Schwander, and D. K. Saldin, Structural Dynamics, 2, 024103 (2015).
  4. “Deducing fast electron density changes in randomly oriented uncrystallized biomolecules in a pump-probe experiment” K. Pande, P. Schwander, M. Schmidt, and D. K. Saldin, Phil. Trans. Roy. Soc. B., 369, 20130332 (2014).
  5. “Enzyme transient state kinetics in crystal and solution from the perspective of a time-resolved crystallographer”, M. Schmidt and D. K. Saldin, Structural Dynamics, 1, 024701 (2014).
  6. “Fiber diffraction without fibers”, H.-C. Poon, P. Schwander, M. Uddin, and D. K. Saldin, Phys. Rev. Lett. 110, 265505 (2013).
  7. “Three dimensional single-particle imaging using angular correlations from X-ray laser data”, H. Liu, B. K. Poon, D. K. Saldin, J. C. H. Spence, and P. H. Zwart, Acta Cryst. A, 69, 365-373 (2013).
  8. “Extraction of fast changes in the structure of a disordered ensemble of photoexcited biomolecules”, H.-C. Poon, M. Schmidt, and D. K. Saldin, Advances in Condensed Matter Physics, Vol. 2013, 750371 (5 pages) (2013).
  9. “Structure determination from disordered ensembles of identical particles” R. A. Kirian and D. K. Saldin, Synchrotron Radiation News, Vol. 26, 20-25 (2013).
  10. “Reconstructing the third dimension”, D. K. Saldin, News and Views article, Nature 486, 197-198 (2012).
  11. “Reconstructing an icosahedral virus from single particle diffraction experiments” D. K. Saldin, H. C. Poon, P. Schwander, M. Uddin, and M. Schmidt, Optics Express 19, 17318-17335 (2011), and arXiv:1107.5212.
  12. “Role of hydrogen on the ZnO(000-1)-(1×1) surface” by S. E. Chamberlin, C. J. Hirschmugl, S. T. King, H. C. Poon, and D. K. Saldin Phys. Rev. B 84, 075437 (2011).
  13. “New light on disordered ensembles: ab-initio structure determination of one particle from scattering fluctuations of many copies” D. K. Saldin, H. C. Poon, M. Bogan, S. Marchesini, D. A. Shapiro, R. A. Kirian, U. Weierstall, and J. C. H. Spence, Phys. Rev. Lett. 106, 115501 (2011).
  14. “Beyond the crystallization paradigm: structure determination from diffraction patterns of ensembles of randomly oriented particles” H. C. Poon and D. K. Saldin, Ultramicroscopy 111, 798-806 (2011). In special issue to honor the 65th birthday of Prof. John Spence.
  15. “Reconstruction of electron density of molecules with single-axis alignment” D. Starodub, J. C. H. Spence, and D. K. Saldin, Proc. SPIE Conf. on “Image Reconstruction from Incomplete Data IV”, August 1-5, 2010, San Diego, USA, v.7800, pp. 7800-7824.
  16. “Beyond small angle x-ray scattering: exploiting angular correlations” D. K. Saldin, H. C. Poon, V. L. Shneerson, M. Howells, H. N. Chapman, R. Kirian, K. E. Schmidt, and J. C. H. Spence, Phys. Rev. B 81, 174105 (2010).
  17. “Structure of a single particle from scattering of many particles randomly oriented about an axis: towards structure solution without crystallization?” D. K. Saldin, V. L. Shneerson, M. Howells, S. Marchesini, H. N. Chapman, M. Bogan, D. Shapiro, R. A. Kirian, U. Weierstall, K. E. Schmidt, and J. C. H. Spence, New J. Phys. 12, 035014 (2010).
  18. “Reconstruction from a single diffraction pattern of azimuthally projected electron density of molecules aligned parallel to a single axis” D. K. Saldin, V. L. Shneerson, D. Starodub, and J. C. H. Spence, Acta Cryst. A, 66, 32-37 (2010).
  19. “Geometric structure of TiO_2(011)-(2×1) surface by low energy electron diffraction” by S. E. Chamberlin, C. J. Hirschmugl, H. C. Poon, and D. K. Saldin, Surf. Sci. 603, 3367-3373 (2009).
  20. “Molecular structure determination from x-ray scattering patterns of laser-aligned symmetric-top molecules” by P. J. Ho, D. Starodub, D. K. Saldin, V. L. Shneerson, A. Ourmazd, and R. Santra, J. Chem. Phys. 131, 131101 (2009).
  21. “Structure of isolated biomolecules from ultrashort x-ray pulses: exploiting the symmetry of random orientations” by D. K. Saldin, V. L. Shneerson, R. Fung, and A. Ourmazd, J. Phys.: Condens. Matter. 21, 134014 (2009). In a special issue to honor the 65th birthday of Prof. K. Heinz.
  22. “Determination of supramolecular structure and spatial distribution of protein complexes in living cells” by V. Raicu, M. Stoneman, R. Fung, M. Melnichuk, D. Jansma, L. Pisterzi, S. Rath, M. Fox, J. Wells, and D. K. Saldin, Nature Photonics 3, 107-113 (2009).
  23. “Molecular shapes from small angle x-ray scattering: extension of the theory to higher scattering angles” by V. L. Shneerson and D. K. Saldin, Acta Cryst. A65, 128-134 (2009).
  24. “Structure from fleeting illumination of faint spinning objects in flight” by R. Fung, V. L. Shneerson, D. K. Saldin, and A. Ourmazd, Nature Physics, 5, 64-67 (2009).
  25. “Surface alloy model of p(2×2)Sb/Cu(001) from LEED I/V data”, by S. Higashi, H. Tochihara, V. L. Shneerson, and D. K. Saldin, Surf. Sci., 602, 2473-2477 (2008).
  26. “Direct methods for surface crystallography”, by D. K. Saldin and V. L. Shneerson, J. Phys.: Condens. Matter, 20, 304208 (2008). In a special issue to honor the 65th birthday of Prof. Sir John Pendry, F.R.S.,
  27. “The structure and reactivity of 2-butanol on Pd(111)”, by F. Gao, Y. Wang, L. Burkholder, C. Hirschmugl, D. K. Saldin, H. C. Poon, D. Sholl, J. James, and W. T. Tysoe, Surf. Sci., 602, 2264-2270 (2008).
  28. “Surface segregation of gold on Au/Pd(111) alloys measured by low energy electron diffraction and low energy ion scattering”, by J. Li, O. Furlong, F. Calaza, L. Burkholder, H. C. Poon, D. K. Saldin and W. T. Tysoe, Surf. Sci., 602, 1084-1091 (2008).
  29. “Crystallography without crystals I: the common-line method for assembling a 3D diffraction volume from single-particle scattering” , by V. L. Shneerson, A. Ourmazd, and D. K. Saldin, Acta Cryst. A, 64, 303-315 (2008).
  30. “Surface structure of SrTiO_3(001)”, by R. Herger, P. R. Willmott, O. Bunk, C. M. Schlepeutz, B. D. Patterson, B. Delley, V. L. Shneerson, P. F. Lyman, and D. K. Saldin, Phys. Rev. B 76, art. no. 195435 (18 pages) (2007).
  31. “Phase and amplitude recovery and diffraction image generation method: structure of Sb/Au(110)-(rt3xrt3)R54.7 degrees from surface x-ray diffraction”, by R. Fung, V. L. Shneerson, P. F. Lyman, S. S. Parihar, H. T. Johnson-Steigelman, and D. K. Saldin, Acta Cryst. A63, 239-250 (2007).
  32. “Spontaneous symmetry breaking of the Ir(100)-(5×1)-hex surface induced by hydrogen adsorption”, by H. C. Poon, D. K. Saldin, D. Lerch, W. Meier, A. Schmidt, A. Klein, S. Mueller, L. Hammer, and K. Heinz, Phys. Rev. B., 74, art. no. 125413 (8 pages) (2006).
  33. “Structure of hydrogen stabilized MgO(111)-(1×1) surface from low energy electron diffraction”, by H. C. Poon, X. F. Hu, S. E. Chamberlain, D. K. Saldin, and C. J. Hirschmugl, Surf. Sci., 600, 2505-2509 (2006).
  34. “Structure and stability of Sb/Au(110)-c(2×2) surface phase”, by P. F. Lyman, V. L. Shneerson, R. Fung, S. S. Parihar, H. T. Johnson-Steigelman, E. D. Lu, and D. K. Saldin, Surf. Sci., 600, 424-435 (2006).
  35. “Structure and binding site of acetate on Pd(111) determined using density functional theory and low energy electron diffraction”, by J. James, D. K. Saldin, T. Zheng, W. T. Tysoe, and D. S. Sholl, Catalysis Today, 105, 74-77 (2005).
  36. “Structure of the hydrogen-stabilized MgO(111)-(1×1) polar surface: integrated experimental and theoretical studies”, by V. K. Lazarov, R. Plass, H.-C. Poon, D. K. Saldin, M. Weinert, S. A. Chambers, and M. Gajdardziska-Josifovska, Phys. Rev. B. 71, art. no. 115434 (9 pages) (2005).
  37. “Atomic-scale visualization of surfaces with x-rays”, by P. F. Lyman, V. L. Shneerson, R. Fung, R. J. Harder, E. D. Lu, S. S. Parihar, and D. K. Saldin, Phys. Rev. B, 71, art. no. 081402(R) (4 pages) (2005).
  38. “The structure of formate species on Pd(111) calculated by density functional theoy and determined by low energy electron diffraction”, by T. Zheng, D. Stacchiola, D. K. Saldin, J. James, D. Sholl, and W. T. Tysoe, Surf. Sci., 574, 166-174 (2005).
  39. “X-ray absorption analysis of the chemical environment of zinc in the tribological film formed by zinc dialkyl dithiophosphate decomposition on steel”, by M. D. Pauli, T. S. Rufael, J. K. Mowlem, M. Weinert, D. K. Saldin, and W. T. Tysoe, Tribology International, 38, 195-204 (2005).
  40. “Determination of the structure of disordered overlayers of ethylene on clean and hydrogen-covered Pd(111) by low-energy electron diffraction”, by T. Zheng, D. Stacchiola, H. C. Poon, D. K. Saldin, and W. T. Tysoe, Surf. Sci., 564, 71-78 (2004)
  41. “Convergent-beam low energy electron diffraction (CBLEED) and the measurement of surface dipole layers”, by J. C. H. Spence, H. C. Poon, and D. K. Saldin, Invited paper, 80th birthday Festschrift for Prof. J. M. Cowley, Microscopy and Microanalysis, 10, 128-133 (2004).
  42. “Structure determination of disordered organic molecules on surfaces from the Bragg spots of low energy electron diffraction and total energy calculations”, by H. C. Poon, M. Weinert, D. K. Saldin, D. Stacchiola, T. Zheng, and W. T. Tysoe, Phys. Rev. B, 69, art. no. 035401 (6 pages) (2004).
  43. “Holographic surace crystallography: substrate as reference” by R. J. Harder and D. K. Saldin, Invited paper, in Solid State Photoemission and Related Methods , pp. 370-386. Edited by W. Schattke and M. A. Van Hove (Wiley-VCH, Weinheim, 2003).
  44. “Structure determination of ordered and disordered organic molecules on a surface from the substrate diffraction spots in low energy electron diffraction: (sqrt3xsqrt3)R30degree- C2H2 and disordered CH3OH on Pd(111)”, by T. Zheng, W. T. Tysoe, H. C. Poon, and D. K. Saldin, Surf. Sci., 543, 19-28 (2003).
  45. “Surface structure solution by x-ray diffraction: structure completion with positivity and atomicity constraints”, by D. K. Saldin, V. L. Shneerson, and R. Fung, Invited paper, 7th Int. Conf. on Surface X-ray and Neutron Scattering (7SXNS), Lake Tahoe, California, September 2002, Physica B, 336, 16-26 (2003).
  46. “Direct determination by low energy electron diffraction of the atomic structure of surface layers on a known substrate”, by A. Seubert, K. Heinz, and D. K. Saldin, Phys. Rev. B, 67, art. no. 25417 (11 pages) (2003).
  47. “Surface crystallography by alternating constraints in real and reciprocal space: case of mixed domains”, by D. K. Saldin, R. J. Harder, V. L. Shneerson, and W. Moritz, Invited paper, VIIth European Conf. on Surface Crystallography and Dynamics, Leiden, The Netherlands, August 2002, J. Phys.: Condens. Matter 14, 4087-4100 (2002).
  48. “Path-reversed photoelectron diffraction from surfaces: composite-layer treatment”, by H. C. Poon, M. D. Pauli, A. Wander, and D. K. Saldin, Phys. Rev. B 65, art. no. 134115 (5 pages) (2002).
  49. “Solution of a multiple-scattering inverse problem: electron difraction from surfaces”, by D. K. Saldin, A. Seubert, and K. Heinz, Phys. Rev. Lett. 88, art. no. 115507 (4 pages) (2002).
  50. “Phase retrieval methods for surface x-ray diffraction”, by D. K. Saldin, R. J. Harder, V. L. Shneerson, and W. Moritz, Invited paper, Special issue on Holographic and Other Direct Methods for Surface Structures using Electrons and Photons, J. Phys.: Condens. Matter 13, 10689-10707 (2001).
  51. “Holographic low-energy electron diffraction”, by K. Heinz, A. Seubert, and D. K. Saldin, Invited paper, Special issue on Holographic and Other Direct Methods for Surface Structures using Electrons and Photons, J. Phys.: Condens. Matter 13, 10647-10663 (2001).
  52. “Path-reversed Auger electron and photoelectron diffraction”, by M. D. Pauli and D. K. Saldin, Phys. Rev. B 64, art. no. 075411 (4 pages) (2001)
  53. “Solving the structure completion problem in surface crystallography”, by D. K. Saldin, R. J. Harder, H. Vogler, W. Moritz, and I. K. Robinson, Invited paper, Special issue on Surface Science, Comput. Phys. Commun. 137, 12-24 (2001).
  54. “An exponential modeling algorithm for protein structure completion by X-ray crystallography” , by V. L. Shneerson, D. L. Wild, and D. K. Saldin, Acta Cryst., A57, 163-175 (2001).
  55. “Avoidance of ghost atoms in holographic LEED” , A. Seubert, D. K. Saldin, J. Bernhardt, U. Starke, and K. Heinz, J. Phys: Condens. Matter 26, 5527-5540 (2000).
  56. “Direct methods for surface X-ray diffraction”, by D. K. Saldin, R. Harder, V. L. Shneerson, H. Vogler, and W. Moritz, Invited paper,Theory and Computation for Synchrotron Radiation Spectroscopy, Frascati, Italy, 1999, edited by M. Benfatto, C. R. Natoli, and E. Pace, AIP Conference Proceedings (American Institute of Physics, New York, 2000), pp. 130-139.
  57. “Computation of photo-electron and Auger-electron diffraction I: preparation of input data for the cluster calculation” , by X. Chen and D. K. Saldin, Comput. Phys. Commun., 112, 67-79 (1998).
  58. “Computation of photo-electron and Auger-electron diffraction II: multiple scattering cluster calculation”, by G. R. Harp, Y. Ueda, X. Chen and D. K. Saldin, Comput. Phys. Commun., 112, 80-90 (1998).
  59. “Computation of photo-electron and Auger-electron diffraction III: evaluation of angle-resolved intensities”, by X. Chen, G. R. Harp, Y. Ueda, and D. K. Saldin, Comput. Phys. Commun., 112, 91-101 (1998).
  60. “Extending holographic LEED to ordered small unit cell superstructures”, K. Reuter, J. A. Vamvakas, D. K. Saldin, V. Blum, M. Ott, H. Wedler, R. Doell, and K. Heinz, Phys. Rev. B 58, 4102-4110 (1998).
  61. “Application of the layer Korringa-Kohn-Rostocker method to the calculation of near edge structure in X-ray absorption and electron energy loss spectroscopy”, by P. Rez, J. M. Maclaren, and D. K. Saldin, Phys. Rev. B 57, 2621-2627 (1998).
  62. “The structure of the c(2×2)Mn/Ni(001) surface alloy by photoelectron diffraction”, by S. Bannerjee, S. Ravy, J. Denlinger, X. Chen, D. K. Saldin, and B. P. Tonner, Proc. 5th Int. Conf. on the Structure of Surfaces, (ICSOS-5), Aix-en-Provence, France, July 1996, Surf. Rev. Lett., 4, 1131-1138 (1997).
  63. “Holographic LEED: A review of recent progress”, by D. K. Saldin, X. Chen, J. A. Vamvakas, M. Ott, H. Wedler, K. Reuter, K. Heinz, and P. L. De Andres, Invited paper, Proc. 5th Int. Conf. on the Structure of Surfaces (ICSOS-5), Aix-en-Provence, France, July 1996, Surf. Rev. Lett., 4, 991-1001 (1997).
  64. “Holographic methods for X-ray and electron crystallography”, by D. K. Saldin, V. L. Shneerson, J. A. Vamvakas, and D. L. Wild, Invited paper in the Festschrift to honor Prof. M. J. Whelan, F. R. S., of the University of Oxford on the occasion of his retirement, Micron, 28, 321-329 (1997).
  65. “A maximum entropy algorithm for holographic structure completion in macromolecular X-ray crystallography”, by D. K. Saldin, V. L. Shneerson, and D. L. Wild, Invited paper, 50th Annual Meeting of the Society for Imaging Science and Technology, Cambridge, Massachusetts, May 1997, J. Imaging Sci. Technol., 41, 482-487 (1997).
  66. “Holographic crystallography for surface studies: a review of the basic principles”, D.K. Saldin, Invited paper, Proc. Winter Workshop on Electron Diffraction and Imaging at Surfaces, Scottsdale, Arizona, January 1996, Surf. Rev. Lett., 4, 441-457 (1997).
  67. “The adsorption site and orientation of CH3S on Ni(111)”, by D. R. Mullins, D. R. Huntley, T. Tang, D. K. Saldin, and W. T. Tysoe, Surf. Sci. 380, 468-480 (1997).
  68. “On the dependence with bond length of the observed energies of NEXAFS resonances of diatomic molecules”, by V. L. Shneerson, D. K. Saldin, and W. T. Tysoe, Surf. Sci. 375, 340-352 (1997).
  69. “Atomic geometry of mixed Ge-Si dimers in the initial-stage growth of Ge on Si(001)2×1”, by X. Chen, D. K. Saldin, E. Bullock, T. Abukawa, H. W. Yeom, and S. Kono, Phys. Rev. B 55, R7319-R7322 (1997).
  70. “Influence of the data base and algorithmic parameters on the image quality in holographic diffuse LEED”, by K. Reuter, H. Wedler, M. Ott, K. Heinz, J. A. Vamvakas, X. Chen, and D. K. Saldin, Phys. Rev. B, 55, 5344-5352 (1997).
  71. “The adsorption site and orientation of CH3S and sulfur on Ni(001) using angle-resolved X-ray photoelectron spectroscopy”, by D. R. Mullins, T. Tang, X. Chen, V. L. Shneerson, D. K. Saldin, and W. T. Tysoe, Surf. Sci. 372, 193-201 (1997).
  72. “Reconstructing the atomic architecture of matter: holographic methods for synchrotron radiation experiments” , by D. K. Saldin, V. L. Shneerson, R. Harder, X. Chen, S. Banerjee, S. Ravy, J. Denlinger, B. P. Tonner, H. Vogler, W. Moritz, I. K. Robinson, and D. L. Wild, Invited paper, Web Proceedings, Workshop on Theory and Computation for Synchrotron Applications, Advanced Light Source, Lawrence Berkeley National Laboratory, Berkeley, California, October 1997.
  73. “Direct reconstruction of 3D atomic adsorption sites by holographic LEED”, D. K. Saldin, K. Reuter, P. L. De Andres, H. Wedler, X. Chen, J. B. Pendry, and K. Heinz, Phys. Rev. B 54, 8172-6 (1996).
  74. “On the inside, looking out”, Dilano Saldin, Invited paper, Physics World, Vol. 9, No. 7, pp. 25-6 (1996).
  75. “Analytical theory of NEXAFS from diatomic molecules”, V. L. Shneerson, W. T. Tysoe, and D. K. Saldin, Phys. Rev. B 53, 10177-86 (1996).
  76. “Calculation of resonances in near-edge X-ray absorption fine structure using the constant chemical potential local density approximation method”, by V. L. Shneerson, D. K. Saldin, and W. T. Tysoe, Surf. Sci. 345, 155-160 (1996).
  77. “Holographic Reconstruction for Macromolecular Structure Completion in X-ray Crystallography by Iterative Applications of Linear Programming”, D. L. Wild, X. Chen, and D. K. Saldin, Signal Recovery and Synthesis V, 11, 1995, OSA Technical Digest Series (Optical Society of America, Washington, DC 1995), pp. 64-67.
  78. “Three-dimensional reconstruction by holographic LEED: Proper identification of the reference wave”, D.K.Saldin and X.Chen, Phys. Rev. B 52, 2941-48 (1995).
  79. “Ensuring the constancy of the chemical potential within the local density approximation for exchange and correlation: implications for near-edge X-ray absorption fine structure”, V. L. Shneerson, W. T. Tysoe, and D. K. Saldin, Phys. Rev. B, 51 , 13015-21 (1995).
  80. “Non-linear holographic crystalography”, X.Chen and D.K.Saldin, Phys. Rev. B 50, 17463-70 (1994).
  81. “On the mean inner potential in high and low energy electron diffraction”, D. K. Saldin, and J. C. H. Spence, Ultramicroscopy 55, 397-406 (1994).
  82. “Orientations of oxygen hole states and ionicity of bismuth atoms in Bi2Sr2CaCu2O8”, M. Faiz, G. Jennings, J. C. Campuzano, E. E. Alp, J. M. Yao, D. K. Saldin, and J. Yu, Phys. Rev. B 50, 6370-4 (1994).
  83. “The structure of MgO(100) surfaces by photoelectron diffraction”, S. Varma, X. Chen, I. Davoli, J. Zhang, D. K. Saldin, and B.P. Tonner. Surf. Sci. 314, 145-56 (1994).
  84. “Optimum scaling for structural optimization in low energy electron diffraction”, N.C. Kothari, H. Over and D.K. Saldin, Phys. Rev. B 49, 11088-1 (1994).
  85. “Angular distributions of Auger electrons from surfaces: Conlusions from full multiple-scattering simulations”, X.Chen, G.R.Harp and D.K.Saldin, J. Vac. Sci. Technol. A 12, 428-35 (1994).
  86. “Concentric shell algorithm for Auger and core-level photoelectron diffraction: Theory and applications”, D.K.Saldin, G.R.Harp and X.Chen, Phys. Rev. B 48, 8234-44 (1993).
  87. “NEXAFS identification of a catalytic reaction intermediate: C4H4 on Pd(111)”, R. M. Ormerod, R. M. Lambert, H. Hoffmann, F. Zaera, J. M. Yao, D. K. Saldin, L. P. Wang, D. W. Bennett and W. T. Tysoe, Surf. Sci. 295, 277-86 (1993).
  88. “Reconstruction of the 3-D atomic structure of CoSi2(111) by photoelectron holography”, by Y.Zhou, X.Chen, D. K. Saldin and J. C. Campuzano, in Application of Synchrotron Radiation Techniques to Materials Science, edited by D.L. Perry, N.D. Shinn, R.L. Stockbauer, K.L. D’Amico and L.J. Terminello, M.R.S. Symposium Proc. 307 (Materials Research Society, Pittsburgh, 1993), pp. 279-84.
  89. “Finite-size effects and short-range crystalline order in Si and SiO2 by X-ray absorption fine structure”, by G. R. Harp, D. K. Saldin and B. P. Tonner, J. Phys.: Condens. Matter 5, 5377-88 (1993).
  90. “Atomic position recovery by iterative optimization of reconstructed intensities: Overcoming limitations of holographic crystallography” , D.K.Saldin, X.Chen, N.C.Kothari and M.H.Patel, Phys. Rev. Lett. 70, 1112-5 (1993).
  91. “The dipole approximation in electron energy loss spectroscopy: M-shell excitations”, Y. Ueda and D. K. Saldin, Phys. Rev. B 46, 13697-701 (1992).
  92. “The dipole approximation in electron energy loss spectroscopy: L-shell excitations”, D. K. Saldin and Y. Ueda, Phys. Rev. B 46, 5100-9 (1992).
  93. “Photoelectron holography of Si(100)-[2×1] and other surface and thin-film structures”, B.P.Tonner, J.Zhang, X.Chen, Z.Han, G.R.Harp and D.K.Saldin, J. Vac. Sci. Technol. B 10, 2082-7 (1992).
  94. “Oxygen X-ray absorption near-edge structure characterization of the Ba-doped yttria oxidative coupling catalyst”, by M. P. Kaminsky, G. W. Zajac, J. C. Campuzano, M. Faiz, L. Beaulaigue, K. Gofron, G. Jennings, J. M. Yao, and D. K. Saldin, J. Catalysis 136, 16-23 (1992).
  95. “Effect of the reference wave in Auger-electron holography”, by D.K.Saldin, G. R. Harp, and B.P. Tonner, Phys. Rev. B 45, 9629-41(1992).
  96. “A near-edge X-ray absorption fine structure and ultraviolet photoelectron spectroscopic study of the structural properties of acetylene on Pd(111)”, by H. Hoffmann, F. Zaera, R. M. Ormerod, R. M. Lambert, J. M. Yao, D. K. Saldin, L. P. Wang, D. W. Bennett and W. T. Tysoe, Surf. Sci. 268, 1-10 (1992).
  97. “Holographic reconstruction from measured diffuse LEED intensities”, by M. A. Mendez, C. Glueck, J. Guerrero, P. L. de Andres, K. Heinz, D. K. Saldin and J. B. Pendry, Phys. Rev. B 45, 9402-5 (1992).
  98. “The effects of various experimental parameters on the reliability of holographic reconstruction”, by G. R. Harp, D. K. Saldin, X.Chen, Z.-L. Han, and B. P. Tonner, J. Electron Spectrosc. Relat. Phenom. 57, 331-355 (1991).
  99. “Theoretical principles of holographic crystallography”, by D. K. Saldin, G. R. Harp, B. L. Chen and B. P. Tonner, Phys. Rev. B 44, 2480-94 (1991).
  100. “The scattered wave integral transform method of holographic image reconstruction from forward-scattering diffraction patterns”, B. P. Tonner, Zhi-Lan Han, G. R. Harp and D. K. Saldin, Phys. Rev. B 43 14423-33 (1991).
  101. “Atomic-resolution electron holography – A realization of Gabor’s dream ?”, D. K. Saldin, Invited paper, Advanced Materials 3 159-61 (1991).
  102. “X-ray photoelectron holography of ultrathin film and single crystal Cu(111): improving the accuracy of bond-length determination”, S. Hardcastle, Z.-L. Han, G. R. Harp, J. Zhang, B. L. Chen, D. K. Saldin and B. P. Tonner, Surf. Sci. 245 L190-4 (1991).
  103. “Scanned-angle X-ray photoemission holography with atomic resolution”, G. R. Harp, D. K. Saldin and B. P. Tonner, Phys. Rev. B 42 9199-202 (1990).
  104. “Atomic-resolution electron holography with localized sources”, by G. R. Harp, D. K. Saldin and B. P. Tonner, Phys. Rev. Lett. 65 1012-5 (1990).
  105. “Adsorbate induced reconstruction phase p(2×2)O/Ni(100)”, by W. Oed, H. Lindner, K. Heinz, K. Mueller, D. K. Saldin, P. de Andres and J. B. Pendry, Surf. Sci. 225 242-48 (1990).
  106. “Holographic LEED”, D. K. Saldin and P. L. de Andres, Phys. Rev. Lett. 64 1270-3 (1990).
  107. “The dipole approximation in electron energy loss spectroscopy – K-shell excitations”, by D. K. Saldin and J. M. Yao, Phys. Rev. B 41 52-61 (1990).
  108. “Theory of positronium formation spectroscopy”, by A. Ishii, J. B. Pendry, and D. K. Saldin, in Positronium Annihilation (1989), World Scientific: Singapore pp. 326-328.
  109. “A molecular representation of the potential of carbon monoxide adsorbed on a nickel surface”, by H. C. Poon and D. K. Saldin, J. Phys.: Condens. Matter 1 1551-1559 (1989).
  110. “A diffuse LEED study of disordered O/Ni(100)”, by U. Starke, P. L. de Andres, D. K. Saldin, K. Heinz, and J. B. Pendry, Phys. Rev. B. 38 12277-12282 (1988).
  111. “Adsorption and reaction of CO on Ni(110): X-ray photoemission, near-edge X-ray absorption fine-structure and diffuse LEED studies”, by G. Illing, D. Heskett, E. W. Plummer, H.-J. Freund, J. Sommers, Th. Lindner, A. M. Bradshaw, U. Buskotte, M. Neumann, U. Starke, K. Heinz, P. L. de Andres, D. Saldin, and J. B. Pendry, Surf. Sci. 206 1-19 (1988).
  112. “Angle-resolved electron energy loss spectroscopy: atomic core excitations at adsorbates on surfaces”, D. K. Saldin, Phys. Rev. Lett. 60 1197-1200 (1988).
  113. “The Theory of SEELFS from adsorbates”, D. K. Saldin, In The Structure of Surfaces II, Springer Series in Surface Sciences 11 (1987), Springer-Verlag: Berlin (Eds: J. F. van der Veen and M. A. Van Hove) p. 32.
  114. “Comparison of the quasidynamical and tensor LEED approximation for LEED intensity spectra from a reconstructed surface, N. Bickel, K. Heinz, H. Landskron, P. J. Rous, J. B. Pendry, and D. K. Saldin, In The Structure of Surfaces II, Springer Series in Surface Science 11 (1987), Springer-Verlag: Berlin (Eds: J. F. van der Veen and M. A. Van Hove) p. 19
  115. “The theory of electron energy loss near edge structure”, D. K. Saldin, Phil. Mag. B 56, 515-525 (1987).
  116. “Calculation of the renormalised electron scattering matrix of a molecule adsorbed on a crystal surface”, by D. K. Saldin and J. B. Pendry, Comput. Phys. Commun. 46 129-140 (1987).
  117. “The theory of the excitation of atomic inner shells in crystals by fast electrons”, by D. K. Saldin and P. Rez, Phil. Mag. B 55, 481-489 (1987).
  118. “Calculation of elastic diffuse LEED intensities from disordered adsorbates”, by D. K. Saldin and J. B. Pendry, Comput. Phys. Commun. 42, 399-415 (1986).
  119. “Tensor LEED: A technique for high speed surface structure determination”, by P. J. Rous, J. B. Pendry, D. K. Saldin, K. Heinz, K. M”{u}ller, and N. Bickel, Phys. Rev. Lett. 57 2951-2954 (1986).
  120. “An update of DLXANES, the calculation of X-ray absorption near-edge structure”, by D. D. Vvedensky, D. K. Saldin, and J. B. Pendry, Comput. Phys. Commun. 40 421-440 (1986).
  121. “The electron energy-loss near-edge structure of Be2C “, by M. M. Disko, J. C. H. Spence, O. F. Sankey, and D. Saldin, Phys. Rev. B 33 5642-5651 (1986).
  122. “The cluster approach to LEED calculations”, by D. K. Saldin and J. B. Pendry, Surf. Sci. 162 941-944 (1985).
  123. “Polar and azimuthal angle polarisation dependence of X-ray absorption near-edge structure”, by D. D. Vvedensky, D. K. Saldin, and J. B. Pendry, Surf. Sci. 162 909-912 (1985).
  124. “Diffuse LEED and surface crystallography”, by K. Heinz, D. K. Saldin, and J. B. Pendry, Phys. Rev. Lett. 55 2312-2315 (1985).
  125. “Multiple-scattering effects in near-edge X-ray absorption spectra”, by D. D. Vvedensky, D. K. Saldin, and J. B. Pendry, In The Structure of Surfaces Springer Series in Surface Sciences 2 (1985) Springer-Verlag: Berlin, (Eds. M. A. Van Hove and S. Y. Tong) p. 135.
  126. “The structure of organic adsorbates from elastic diffuse LEED”, by D. K. Saldin, D. D. Vvedensky, and J. B. Pendry, In The Structure of Surfaces Springer Series in Surface Sciences 2 (1985) Springer-Verlag: Berlin, (Eds. M. A. Van Hove and S. Y. Tong) p. 131.
  127. “XANES and diffuse LEED for atoms and complex molecules on surfaces”, by D. D. Vvedensky, D. K. Saldin, and J. B. Pendry, Surf. Sci. 156 845-850 (1985).
  128. “The interpretation of diffuse LEED intensities”, by D. K. Saldin, J. B. Pendry, M. A. Van Hove, and G. A. Somorjai, Phys. Rev. B (Rapid Communication) 31 1216-1218 (1985).
  129. “SEXAFS without X-rays”, by J. B. Pendry and D. K. Saldin, Surf. Sci. 145 33-47 (1984).
  130. “Metal-support interactions in heterogeneous catalysis”, by R. W. Joyner, J. B. Pendry, D. K. Saldin, and S. R. Tennison, Surf. Sci. 138 84-94 (1984).
  131. “Bragg diffraction from a material of circular cross-section”, by D. K. Saldin, Acta Cryst. A38 425-432 (1982).
  132. “Phase conjugation by degenerate four-wave mixing: A general two-dimensional theory”, by T. Wilson, D. K. Saldin, and L. Solymar, Optica Acta 29 1041-1047 (1982).
  133. “Degenerate two-wave mixing in the collinear geometry”, by D. K. Saldin, T. Wilson, and L. Solymar, J. Opt. Soc. America 72 1179-1182 (1982).
  134. “The TEM contrast of faceted voids”, by A. J. E. Foreman, H. von Harrach, and D. K. Saldin, Phil. Mag. 45 625-645 (1982).
  135. “A two-dimensional vectorial theory of degenerate four-wave mixing”, by T. Wilson, D. K. Saldin, and L. Solymar, Optics Commun. 39 11-14 (1981).
  136. “Degenerate four-wave mixing with a non-planar object beam”, by T. Wilson, D. K. Saldin, and L. Solymar, Opt. Quantum Electronics 13 411-414 (1981).
  137. “Diffraction contrast from cavities in crystalline materials”, by D. K. Saldin and H. von Harrach, In Electron Microscopy and Analysis (EMAG79) Inst. Phys. Conf. Ser. No. 52 1980 (Ed. T. Mulvey) p. 229.
  138. “TEM contrast of voids and the determination of void volumes”, by A. J. Foreman, H. von Harrach, and D. K. Saldin, In Electron Microscopy and Analysis (EMAG79) Inst. Phys. Conf. Ser. No. 52 1980 (Ed. T. Mulvey) p. 225.
  139. “Electron microscope image contrast of dislocation loops and stacking-fault tetrahedra”, by D. K. Saldin, A. Y. Stathopoulos, and M. J. Whelan, Phil. Trans. Roy. Soc. A292 523-537 (1979).
  140. “The construction of displacement fields of dislocation loops and stacking-fault tetrahedra”, by D. K. Saldin and M. J. Whelan, Phil. Trans. Roy. Soc. A292 513-521 (1979).
  141. “The nature of irradiation-induced defects in copper, molybdenum and zirconium”, by D. K. Saldin, A. Y. Stathopoulos, and M. J. Whelan, In Electron Diffraction 1927-77 Inst. Phys. Conf. Ser. No. 41 1978 (Eds. P. J. Dobson et.al.) p. 350.
  142. “Electron diffraction contrast in the non-symmetric Laue case”, by D. K. Saldin, M. J. Whelan, and C. J. Rossouw, In Electron Diffraction l927-77 Inst. Phys. Conf. Ser. No. 41 1978 (Eds. P. J. Dobson et al.) p. 50.
  143. “X-ray topography of perfect cylindrical crystals”, by D. K. Saldin and I. M. Buckley-Golder, Proc. 4th European Crystallographic Meeting, Oxford (Cotswold Press, Oxford, 1977), Vol. B p. 637.
  144. “Computer simulation of electron microscope images of small defect clusters”, D. K. Saldin and M. J. Whelan, In Electron Microscopy and Analysis (EMAG75) 1976 (Ed. J. Venables) Academic Press, p. 393
  145. “Contrast from extended dislocation nodes in silicon”, by A. G. Cullis, D. K. Saldin, G. R. Booker, and M. J. Whelan, In Electron Microscopy 1974 Proc. 8th Int. Cong. on Electron Microscopy, Canberra (Eds. J. V. Sanders and D. J. Goodchild) Aust. Acad. Sci. (1974) Vol. 1 p. 458.
  146. “On the calculation of electron diffraction contrast”, by D. K. Saldin and M. J. Whelan, J. Phys. C. 6 L215-L218 (1973).