The scattering of fast electrons by crystals
暂无分享,去创建一个
[1] R. Bicknell. Weak beam observation of dislocation loops in silicon , 1971 .
[2] M. Whelan,et al. A kinematical theory of diffraction contrast of electron transmission microscope images of dislocations and other defects , 1960, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.
[3] S. Takagi. Dynamical theory of diffraction applicable to crystals with any kind of small distortion , 1962 .
[4] J. Ibers,et al. Atomic scattering amplitudes for electron diffraction , 1954 .
[5] J. Gjønnes,et al. Extinction conditions in the dynamic theory of electron diffraction , 1965 .
[6] von C.H. Mac Gillavry. Zur prüfung der dynamischen theorie der elektronenbeugung am kristallgitter , 1940 .
[7] A. Young,et al. Resonance errors and partial coherence in the inelastic scattering of fast electrons by crystal excitations , 1975 .
[8] C. Davisson,et al. The Scattering of Electrons by a Single Crystal of Nickel , 1927, Nature.
[9] S. Lang,et al. An Introduction to Fourier Analysis and Generalised Functions , 1959 .
[10] M. Berry. The diffraction of light by ultrasound , 1966 .
[11] C. Humphreys,et al. Additional image peaks in the high resolution imaging of dislocations , 1977 .
[12] R. Stern,et al. Low-Energy Electron-Diffraction Dispersion Surfaces and Band Structure in Three-Dimensional Mixed Laue and Bragg Reflections , 1969 .
[13] M. Whelan,et al. Some comments on the interpretation of the 'kikuchi-like reflection patterns' observed by scanning electron microscopy , 1967 .
[14] D. Cockayne,et al. A study of the relationship between lattice fringes and lattice planes in electron microscope images of crystals containing defects , 1971 .
[15] S. Takagi. On the Temperature Diffuse Scattering of Electrons:II. Applications to Practical Problems , 1958 .
[16] A. Head. The Computer Generation of Electron Microscope Pictures of Dislocations , 1967 .
[17] A. Fukuhara,et al. 222 Electron Reflection from Aluminium and Systematic Interaction , 1967 .
[18] M. Whelan,et al. On the production of X-rays in thin metal foils , 1962 .
[19] D. Cherns. Sputtering in the high-voltage electron microscope , 1979 .
[20] M. Born. Quantenmechanik der Stoßvorgänge , 1926 .
[21] M. Whelan,et al. Investigations of dislocation strain fields using weak beams , 1969 .
[22] I. Nordlander,et al. Resolution of dense dislocation networks using the weak‐beam technique , 1973 .
[23] D. Cockayne,et al. The measurement of stacking-fault energies of pure face-centred cubic metals , 1971 .
[24] B. Buxton,et al. Branch points and the critical voltage effect in high-energy electron diffraction (Band theory models) , 1977 .
[25] A. Freeman. A study of the Compton scattering of X‐rays. II. Li, Li+, Be, Na, Na+, Al+, Al3+, K+, Cl−, Ca, Ca+ and Ca2+ , 1960 .
[26] C. Humphreys,et al. Absorption parameters in electron diffraction theory , 1968 .
[27] R. Uyeda. Dynamical effects in high‐voltage electron diffraction , 1968 .
[28] C. B. Carter,et al. The formation and glide of jogs in low stacking-fault energy face-centred cubic materials , 1977 .
[29] P. Goodman,et al. Numerical evaluations of N‐beam wave functions in electron scattering by the multi‐slice method , 1974 .
[30] B. F. Buxton,et al. The symmetry of electron diffraction zone axis patterns , 1976, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.
[31] U. Valdré,et al. Preservation of electron microscope image contrast after inelastic scattering , 1969 .
[32] C. Humphreys,et al. The critical voltage effect in high voltage electron microscopy , 1972 .
[33] R. P. Ferrier,et al. Book reviewElectron diffraction 1927–1977: Institute of Physics Conference Series No. 41. P. J. Dobson, J. B. Pendry and C. J. Humphreys (editors). XI + 442 pp , 1979 .
[34] M. Born. Zur Quantenmechanik der Stoßvorgänge , 1926 .
[35] Reginald W. James,et al. The Optical principles of the diffraction of X-rays , 1948 .
[36] C. Humphreys,et al. The distribution of intensity in electron diffraction patterns due to phonon scattering , 1977 .
[37] Rolf Sandström,et al. A theoretical model for the energy dependence of electron channelling patterns in scanning electron microscopy , 1974, Journal of Physics D: Applied Physics.
[38] R. Glauber,et al. The Theory of Electron Diffraction , 1953 .
[39] R. W. Horne,et al. Direct Observations of the Arrangement and Motion of Dislocations in Aluminium , 1956 .
[40] W. Krakow,et al. On the possibility of the direct imaging of point defects in crystals using transmission electron microscopy , 1977 .
[41] J. Gjønnes. The influence of Bragg scattering on inelastic and other forms of diffuse scattering of electrons , 1966 .
[42] M. Whelan,et al. The determination of the geometry and nature of small Frank loops using the weak‐beam method , 1973 .
[43] C. Humphreys,et al. A dynamical theory for the contrast of perfect and imperfect crystals in the scanning electron microscope using backscattered electrons , 1972 .
[44] S. Iijima,et al. Structural studies by high‐resolution electron microscopy: tetragonal tungsten bronze‐type structures in the system Nb2O5–WO3 , 1974 .
[45] J. Hoerni. MULTIPLE ELASTIC SCATTERING IN ELECTRON DIFFRACTION BY CRYSTALS , 1956 .
[46] B. Jouffrey,et al. On the validity of the column approximation in electron microscopy , 1967 .
[47] C. R. Hall. On the production of characteristic X-rays in thin metal crystals , 1966, Proceedings of the Royal Society of London. Series A, Mathematical and physical sciences.
[48] G. Thomson,et al. Diffraction of Cathode Rays by a Thin Film , 1927, Nature.
[49] J. M. Cowley. IMAGE CONTRAST IN A TRANSMISSION SCANNING ELECTRON MICROSCOPE , 1969 .
[50] N. Mott. The Scattering of Electrons by Atoms , 1930 .
[51] J. Steeds,et al. Higher order Laue zone effects in electron diffraction and their use in lattice parameter determination , 1977, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[52] D. Watanabe,et al. An apparent variation of structure factors for electrons with the accelerating voltage. An observation through Kikuchi patterns , 1968 .
[53] D. Coates. Kikuchi-like reflection patterns obtained with the scanning electron microscope , 1967 .
[54] C. Darwin. LXXVIII. The theory of X-ray reflexion. Part II , 1914 .
[55] D. Cherns. Direct resolution of surface atomic steps by transmission electron microscopy , 1974 .
[56] R. M. Fisher,et al. Consequences of Bloch's Theorem on the Dynamical Theory of Electron Diffraction Contrast , 1969 .
[57] J. M. Cowley,et al. Fourier Images: I - The Point Source , 1957 .
[58] D. Maher,et al. Computer Simulation of Electron Microscope Images , 1971 .
[59] James A. Ibers,et al. International tables for X-ray crystallography , 1962 .
[60] H. Hashimoto,et al. Images of Thorium Atoms in Transmission Electron Microscopy , 1971 .
[61] C. Humphreys,et al. Inelastic scattering of fast electrons by crystals , 1969 .
[62] A. Howie. Inelastic scattering of electrons by crystals. I. The theory of small-angle in elastic scattering , 1963, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.
[63] P. Goodman,et al. Electron diffraction study of MgO h00‐systematic interactions , 1967 .
[64] C. J. Harland,et al. Electron back-scattering patterns—A new technique for obtaining crystallographic information in the scanning electron microscope , 1973 .
[65] Hide Yoshioka,et al. Effect of Inelastic Waves on Electron Diffraction , 1957 .
[66] E. Butler. Application of the critical voltage effect to the study of compositional changes in nickel-gold alloys , 1972 .
[67] A V Crewe,et al. Visibility of Single Atoms , 1970, Science.
[68] D. Cockayne,et al. The dissociation of dislocations in silicon , 1971, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[69] M. Whelan. Electron Diffraction Theory and Its Application to the Interpretation of Electron Microscope Images of Crystalline Materials , 1976 .
[70] S. Amelinckx,et al. The Direct Observation of Dislocations , 1965 .
[71] L. Broglie,et al. XXXV. A Tentative Theory of Light Quanta , 1924 .
[72] A. Stathopoulos,et al. Electron microscope image contrast of small dislocation loops and stacking-fault tetrahedra , 1979, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.
[73] H. Bethe. Theorie der Beugung von Elektronen an Kristallen , 1928 .
[74] M. Whelan. INELASTIC SCATTERING OF FAST ELECTRONS BY CRYSTALS. I. INTERBAND EXCITATIONS , 1965 .
[75] A. Head. The reconstruction of displacement fields of defects in crystals from electron micrographs. II. Discontinuous fields and many beams , 1969 .
[76] C. Darwin. XXXIV. The theory of X-ray reflexion , 1914 .
[77] A. Melander,et al. Stacking-fault contrast from phonon-scattered electrons , 1975 .
[78] A. Howie,et al. Approximations of the dynamical theory of diffraction contrast , 1968 .
[79] C. Humphreys,et al. Maximizing the penetration in high voltage electron microscopy , 1971 .
[80] F. Fujimoto. Dynamical Theory of Electron Diffraction in Laue-Case, I. General Theory , 1959 .
[81] C. B. Carter,et al. The stacking-fault energy of nickel , 1977 .
[82] P. Duncumb. Enhanced X-ray emission from extinction contours in a single-crystal gold film , 1962 .
[83] Y. Kainuma. The Theory of Kikuchi patterns , 1955 .
[84] G. Möllenstedt,et al. Elektroneninterferenzen im konvergenten Bündel , 1939 .
[85] A. Moodie,et al. The observation of primary step growth in magnesium oxide by direct transmission electron microscopy , 1967 .
[86] W. Bollmann. Interference Effects in the Electron Microscopy of Thin Crystal Foils , 1956 .
[87] A. Freeman. X-ray incoherent scattering functions for non-spherical charge distributions. II. Ti+, V2+, Mn2+, Mn and Fe , 1960 .
[88] Count Alexander Humboldt. XCIII. On the laws observed in the distribution of vegetable forms , 1816 .
[89] G. Wentzel. Zwei Bemerkungen über die Zerstreuung korpuskularer Strahlen als Beugungserscheinung , 1926 .
[90] G. Radi. Complex lattice potentials in electron diffraction calculated for a number of crystals , 1970 .
[91] P. Goodman. Examination of the graphite structure by convergent‐beam electron diffraction , 1976 .
[92] Erwin Schrödinger,et al. Quantisierung als Eigenwertproblem , 1925 .
[93] A. Freeman. A study of the Compton scattering of X‐rays, Ne, Cu+, Cu and Zn , 1959 .
[94] P. Rez. Virtual inelastic scattering in high‐energy electron diffraction , 1978 .
[95] P. Turner,et al. Reciprocity in electron diffraction and microscopy , 1968 .
[96] D. Clarke,et al. Calculations of lattice defect images for scanning electron microscopy , 1971 .
[97] W. R. Bottoms,et al. Growth and Defect Structure of Lamellar Gold Microcrystals , 1968 .
[98] A. Fukuhara. Electron diffraction and complex atomic factors , 1965 .
[99] M. Ichikawa,et al. The Correction of the Mean Inner Potential in Electron Diffraction , 1969 .
[100] J. Ibers,et al. COMPLEX AMPLITUDES FOR ELECTRON SCATTERING BY ATOMS , 1953 .
[101] M. Natta. Influence de la diffusion quasi élastique sur les contrastes de diffraction en microscopie électronique , 1968 .
[102] H. Boersch,et al. Dynamische Theorie der elastischen Elektronenbeugung unter Verwendung komplexer Atomformfaktoren , 1964 .
[103] R. Glauber,et al. The Born Approximation in Electron Diffraction , 1952, Nature.
[104] P. Turner,et al. Relativistic Hartree–Fock X‐ray and electron scattering factors , 1968 .
[105] C. Humphreys. The optimum voltage in very high voltage electron microscopy , 1972 .
[106] C. H. Sworn,et al. The weak beam technique as applied to the determination of the stacking-fault energy of copper , 1971 .
[107] A. Freeman. X-ray incoherent scattering functions for non-spherical charge distributions: N, N−, O−, O, O+, O2+, O3+, F, F−, Si4+, Si3+, Si and Ge , 1959 .
[108] M. Berry. Diffraction in crystals at high energies , 1971 .
[109] P. Dederichs. Dynamical Diffraction Theory by Optical Potential Methods , 1972 .
[110] P. Goodman,et al. Design and Operation of an Electron Diffraction Camera for the Study of Small Crystalline Regions , 1967 .
[111] R. Henkelman,et al. Visualization of single heavy atoms by dark field electron microscopy. , 1971, Proceedings of the National Academy of Sciences of the United States of America.
[112] M. Whelan,et al. Diffraction contrast of electron microscope images of crystal lattice defects - II. The development of a dynamical theory , 1961, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.
[113] M. Whelan,et al. Anomalous electron absorption effects in metal foils: theory and comparison with experiment , 1962, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.
[114] W. Heisenberg. A quantum-theoretical reinterpretation of kinematic and mechanical relations , 1925 .
[115] L. Sturkey. The Calculation of Electron Diffraction Intensities , 1962 .
[116] M. Jenkins. Measurement of the stacking-fault energy of gold using the weak-beam technique of electron microscopy , 1972 .