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Intensity of diffracted intensities
International Tables for Crystallography (2006). Vol. C, ch. 6.1, pp. 554-595 [ doi:10.1107/97809553602060000600 ]
... for a single crystal are considered. 6.1.1. X-ray scattering E. N. Maslen, e++ A. G. Fox b andM. A. O'Keefe ...
Empirical methods
International Tables for Crystallography (2006). Vol. C, Section 6.3.3.5, pp. 607-608 [ doi:10.1107/97809553602060000602 ]
... correction technique. Acta Cryst. A33, 890-898 Katayama, C., Sakabe, N. & Sakabe, K. (1972). A statistical evaluation of absorption. Acta ... data films. Acta Cryst. A29, 291-295. Stuart, D. & Walker, N. (1979). An empirical method for correcting rotation-camera data ... absorption and decay effects. Acta Cryst. A35, 925-933. Walker, N. & Stuart, D. (1983). An empirical method for correcting ...
[more results from section 6.3.3 in volume C]
Dispersion
International Tables for Crystallography (2006). Vol. C, Section 6.3.2, p. 600 [ doi:10.1107/97809553602060000602 ]
... Young, 1974). References Azaroff, L. V., Kaplow, R., Kato, N., Weiss, R. J., Wilson, A. J. C. & Young, R. A. ...
Attenuation (mass absorption) coefficients
International Tables for Crystallography (2006). Vol. C, Section 6.3.1.4, p. 600 [ doi:10.1107/97809553602060000602 ]
Attenuation (mass absorption) coefficients 6.3.1.4. Attenuation (mass absorption) coefficients Since the reduction of intensity depends on the quantity of matter traversed by the beam, the absorption coefficient is often expressed on a mass basis by dividing by the density [rho]m. [mu]/[rho]m defines the attenuation coefficient. The determination of ...
[more results from section 6.3.1 in volume C]
X-ray absorption
International Tables for Crystallography (2006). Vol. C, ch. 6.3, pp. 599-608 [ doi:10.1107/97809553602060000602 ]
... the index of refraction from its normal value of where e and m are the charge and mass of the electron. ... by the interpolation formula Interpolation is accurate to 0.1% with N = M = 3. For cylinders and spheres, may be obtained by ... weighted sum of the values of the function at the N zeros of the Legendre polynomial of degree N in ...
Reflecting power of a crystal
International Tables for Crystallography (2006). Vol. C, Section 6.1.1.8, p. 590 [ doi:10.1107/97809553602060000600 ]
Reflecting power of a crystal 6.1.1.8. Reflecting power of a crystal The reflecting power of a small crystal of volume [Delta]V, rotated at angular velocity [omega] through a Bragg reflection, defined as the ratio of [omega] times the reflected energy to the incident-beam intensity, is where is the unit ...
[more results from section 6.1.1 in volume C]
International Tables for Crystallography (2006). Vol. C, ch. 6.1, pp. 554-595 [ doi:10.1107/97809553602060000600 ]
... for a single crystal are considered. 6.1.1. X-ray scattering E. N. Maslen, e++ A. G. Fox b andM. A. O'Keefe ...
Empirical methods
International Tables for Crystallography (2006). Vol. C, Section 6.3.3.5, pp. 607-608 [ doi:10.1107/97809553602060000602 ]
... correction technique. Acta Cryst. A33, 890-898 Katayama, C., Sakabe, N. & Sakabe, K. (1972). A statistical evaluation of absorption. Acta ... data films. Acta Cryst. A29, 291-295. Stuart, D. & Walker, N. (1979). An empirical method for correcting rotation-camera data ... absorption and decay effects. Acta Cryst. A35, 925-933. Walker, N. & Stuart, D. (1983). An empirical method for correcting ...
[more results from section 6.3.3 in volume C]
Dispersion
International Tables for Crystallography (2006). Vol. C, Section 6.3.2, p. 600 [ doi:10.1107/97809553602060000602 ]
... Young, 1974). References Azaroff, L. V., Kaplow, R., Kato, N., Weiss, R. J., Wilson, A. J. C. & Young, R. A. ...
Attenuation (mass absorption) coefficients
International Tables for Crystallography (2006). Vol. C, Section 6.3.1.4, p. 600 [ doi:10.1107/97809553602060000602 ]
Attenuation (mass absorption) coefficients 6.3.1.4. Attenuation (mass absorption) coefficients Since the reduction of intensity depends on the quantity of matter traversed by the beam, the absorption coefficient is often expressed on a mass basis by dividing by the density [rho]m. [mu]/[rho]m defines the attenuation coefficient. The determination of ...
[more results from section 6.3.1 in volume C]
X-ray absorption
International Tables for Crystallography (2006). Vol. C, ch. 6.3, pp. 599-608 [ doi:10.1107/97809553602060000602 ]
... the index of refraction from its normal value of where e and m are the charge and mass of the electron. ... by the interpolation formula Interpolation is accurate to 0.1% with N = M = 3. For cylinders and spheres, may be obtained by ... weighted sum of the values of the function at the N zeros of the Legendre polynomial of degree N in ...
Reflecting power of a crystal
International Tables for Crystallography (2006). Vol. C, Section 6.1.1.8, p. 590 [ doi:10.1107/97809553602060000600 ]
Reflecting power of a crystal 6.1.1.8. Reflecting power of a crystal The reflecting power of a small crystal of volume [Delta]V, rotated at angular velocity [omega] through a Bragg reflection, defined as the ratio of [omega] times the reflected energy to the incident-beam intensity, is where is the unit ...
[more results from section 6.1.1 in volume C]
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