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Results for DC.creator="O." AND DC.creator="Glatter" in section 2.6.1 of volume C page 1 of 3 pages. |
X-ray techniques
International Tables for Crystallography (2006). Vol. C, Section 2.6.1, pp. 89-104 [ doi:10.1107/97809553602060000581 ]
... some micrometres can be investigated by static light-scattering techniques (Glatter, Hofer, Jorde & Eigner, 1985; Glatter & Hofer, 1988a,b; Hofer, Schurz & Glatter, 1989). Particles exceeding this limit can be seen ...
Calculation of distance-distribution functions
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.7.5, p. 104 [ doi:10.1107/97809553602060000581 ]
... analogous equation to the Debye formula (2.6.1.67) in real space (Glatter, 1980c). The PDDF can be expressed as ) is the ... spheres of well defined size representing different globular subunits (Pilz, Glatter, Kratky & Moring-Claesson, 1972). The form factors of the ... known over a sufficiently large range of h values. References Glatter, O. (1980c). Computation of distance distribution functions and ...
Method of finite elements
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.7.4, p. 104 [ doi:10.1107/97809553602060000581 ]
... I(h) result if values are quantized to Dmax/10000 (Glatter, 1980c). For the practical application (input operation), it is ... J. Appl. Cryst. 11, 473-477. Fedorov, B. A., Ptitsyn, O. B. & Voronin, L. A. (1972). X-ray diffuse scattering ... influence. FEBS Lett. 28, 188-190. Fedorov, B. A., Ptitsyn, O. B. & Voronin, L. A. (1974a). Small-angle X- ...
Calculation of scattering intensities
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.7.3, p. 104 [ doi:10.1107/97809553602060000581 ]
Calculation of scattering intensities 2.6.1.7.3. Calculation of scattering intensities The scattering curves can be calculated semi-analytically for simple triaxial bodies and for models composed of some of these bodies. The scattering amplitude for regular bodies like ellipsoids, parallelepipeds, and cylinders can be calculated analytically for any orientation. The spatial averaging ...
Model calculation
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.7.2, p. 104 [ doi:10.1107/97809553602060000581 ]
Model calculation 2.6.1.7.2. Model calculation In the section on data evaluation and interpretation, we have seen that we obtain a rough estimate for the structure of the particles under investigation directly from the experimental data. For further refinement, we have to compare our results with scattering functions or PDDF's from ...
Simulations
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.7.1, p. 103 [ doi:10.1107/97809553602060000581 ]
Simulations 2.6.1.7.1. Simulations Simulations can help to find the limits of the method and to estimate the systematic errors introduced by the data-evaluation procedure. Simulations are performed with exactly known model systems (test functions). These systems should be similar to the structures of interest. The model data are transformed ...
Simulations and model calculations
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.7, pp. 103-104 [ doi:10.1107/97809553602060000581 ]
... I(h) result if values are quantized to Dmax/10000 (Glatter, 1980c). For the practical application (input operation), it is ... analogous equation to the Debye formula (2.6.1.67) in real space (Glatter, 1980c). The PDDF can be expressed as ) is the ... spheres of well defined size representing different globular subunits (Pilz, Glatter, Kratky & Moring-Claesson, 1972). The form factors of ...
Interpretation of results
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.6.5, p. 103 [ doi:10.1107/97809553602060000581 ]
... structural information can be found more easily in real space (Glatter, 1979, 1982b). When a certain structure is estimated from ... priori information will be necessary to reduce this number. References Glatter, O. (1979). The interpretation of real-space information from ...
Direct structure analysis
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.6.4, p. 103 [ doi:10.1107/97809553602060000581 ]
... distribution function p(r) with a convolution square-root technique (Glatter, 1981; Glatter & Hainisch, 1984). The other way goes through the amplitude ... one obtains better results with the convolution square-root technique (Glatter, 1988). With this method, the results are less ...
Smoothing, desmearing, and Fourier transformation
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.6.3, pp. 101-103 [ doi:10.1107/97809553602060000581 ]
... Most are referenced and some are reviewed in the textbooks (Glatter, 1982a; Feigin & Svergun, 1987). The indirect transformation method in its original version (Glatter, 1977a,b, 1980a,b) or in modifications for special applications ... being trivial, but it can be solved with standard routines (Glatter, 1977a,b; Tikhonov & Arsenin, 1977). The whole process ...
International Tables for Crystallography (2006). Vol. C, Section 2.6.1, pp. 89-104 [ doi:10.1107/97809553602060000581 ]
... some micrometres can be investigated by static light-scattering techniques (Glatter, Hofer, Jorde & Eigner, 1985; Glatter & Hofer, 1988a,b; Hofer, Schurz & Glatter, 1989). Particles exceeding this limit can be seen ...
Calculation of distance-distribution functions
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.7.5, p. 104 [ doi:10.1107/97809553602060000581 ]
... analogous equation to the Debye formula (2.6.1.67) in real space (Glatter, 1980c). The PDDF can be expressed as ) is the ... spheres of well defined size representing different globular subunits (Pilz, Glatter, Kratky & Moring-Claesson, 1972). The form factors of the ... known over a sufficiently large range of h values. References Glatter, O. (1980c). Computation of distance distribution functions and ...
Method of finite elements
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.7.4, p. 104 [ doi:10.1107/97809553602060000581 ]
... I(h) result if values are quantized to Dmax/10000 (Glatter, 1980c). For the practical application (input operation), it is ... J. Appl. Cryst. 11, 473-477. Fedorov, B. A., Ptitsyn, O. B. & Voronin, L. A. (1972). X-ray diffuse scattering ... influence. FEBS Lett. 28, 188-190. Fedorov, B. A., Ptitsyn, O. B. & Voronin, L. A. (1974a). Small-angle X- ...
Calculation of scattering intensities
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.7.3, p. 104 [ doi:10.1107/97809553602060000581 ]
Calculation of scattering intensities 2.6.1.7.3. Calculation of scattering intensities The scattering curves can be calculated semi-analytically for simple triaxial bodies and for models composed of some of these bodies. The scattering amplitude for regular bodies like ellipsoids, parallelepipeds, and cylinders can be calculated analytically for any orientation. The spatial averaging ...
Model calculation
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.7.2, p. 104 [ doi:10.1107/97809553602060000581 ]
Model calculation 2.6.1.7.2. Model calculation In the section on data evaluation and interpretation, we have seen that we obtain a rough estimate for the structure of the particles under investigation directly from the experimental data. For further refinement, we have to compare our results with scattering functions or PDDF's from ...
Simulations
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.7.1, p. 103 [ doi:10.1107/97809553602060000581 ]
Simulations 2.6.1.7.1. Simulations Simulations can help to find the limits of the method and to estimate the systematic errors introduced by the data-evaluation procedure. Simulations are performed with exactly known model systems (test functions). These systems should be similar to the structures of interest. The model data are transformed ...
Simulations and model calculations
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.7, pp. 103-104 [ doi:10.1107/97809553602060000581 ]
... I(h) result if values are quantized to Dmax/10000 (Glatter, 1980c). For the practical application (input operation), it is ... analogous equation to the Debye formula (2.6.1.67) in real space (Glatter, 1980c). The PDDF can be expressed as ) is the ... spheres of well defined size representing different globular subunits (Pilz, Glatter, Kratky & Moring-Claesson, 1972). The form factors of ...
Interpretation of results
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.6.5, p. 103 [ doi:10.1107/97809553602060000581 ]
... structural information can be found more easily in real space (Glatter, 1979, 1982b). When a certain structure is estimated from ... priori information will be necessary to reduce this number. References Glatter, O. (1979). The interpretation of real-space information from ...
Direct structure analysis
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.6.4, p. 103 [ doi:10.1107/97809553602060000581 ]
... distribution function p(r) with a convolution square-root technique (Glatter, 1981; Glatter & Hainisch, 1984). The other way goes through the amplitude ... one obtains better results with the convolution square-root technique (Glatter, 1988). With this method, the results are less ...
Smoothing, desmearing, and Fourier transformation
International Tables for Crystallography (2006). Vol. C, Section 2.6.1.6.3, pp. 101-103 [ doi:10.1107/97809553602060000581 ]
... Most are referenced and some are reviewed in the textbooks (Glatter, 1982a; Feigin & Svergun, 1987). The indirect transformation method in its original version (Glatter, 1977a,b, 1980a,b) or in modifications for special applications ... being trivial, but it can be solved with standard routines (Glatter, 1977a,b; Tikhonov & Arsenin, 1977). The whole process ...
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