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Radiations used in crystallography
International Tables for Crystallography (2006). Vol. C, ch. 4.1, pp. 186-190 [ doi:10.1107/97809553602060000591 ]
... angular frequency in rad s-1, and the phase velocity v (and the group velocity). Intensity in r is given ... the beam of particles of mass m, moving with velocity v, behaves like waves with wavelength given by de Broglie's ... applications. Berlin: Springer Verlag. Kuz'min, R. N., Kolpakov, A. V. & Zhdanov, G. S. (1966). Rassejanie messbauerovskovo izlutschenija kristallami. ...
Infrared, visible, and ultraviolet light
International Tables for Crystallography (2006). Vol. C, Section 4.1.5.3, pp. 189-190 [ doi:10.1107/97809553602060000591 ]
Infrared, visible, and ultraviolet light 4.1.5.3. Infrared, visible, and ultraviolet light Visible light is one of the oldest tools used by crystallographers for macroscopic symmetry determination, for orientation of crystals, and in metallographic microscopes for phase analysis. Infrared and Raman spectroscopy are highly complementary methods in the infrared and visible range ...
[more results from section 4.1.5 in volume C]
Neutrons
International Tables for Crystallography (2006). Vol. C, Section 4.1.4.3, p. 189 [ doi:10.1107/97809553602060000591 ]
Neutrons 4.1.4.3. Neutrons The most important application of neutron diffraction is found in studies of magnetic structures (Marshall & Lovesey, 1971). The magnetic moment of neutrons is equal to 1.913[mu]N, where [mu]N is the nuclear magneton, and neutrons have spin I = 1/2. They can thus interact with ...
[more results from section 4.1.4 in volume C]
Most frequently used radiations
International Tables for Crystallography (2006). Vol. C, Section 4.1.3, pp. 187-188 [ doi:10.1107/97809553602060000591 ]
Most frequently used radiations 4.1.3. Most frequently used radiations Average diffraction properties of X-rays, high-energy electrons, and neutrons are listed in Table 4.1.3.1. They can be varied with respect to the material analysed by changing the incident-beam operating conditions and they also greatly depend on the mutual interaction ...
Electromagnetic waves and particles
International Tables for Crystallography (2006). Vol. C, Section 4.1.2, pp. 186-187 [ doi:10.1107/97809553602060000591 ]
... angular frequency in rad s-1, and the phase velocity v (and the group velocity). Intensity in r is given ... the beam of particles of mass m, moving with velocity v, behaves like waves with wavelength given by de Broglie's ...
Introduction
International Tables for Crystallography (2006). Vol. C, Section 4.1.1, p. 186 [ doi:10.1107/97809553602060000591 ]
Introduction 4.1.1. Introduction The radiations used in crystallography are either electromagnetic waves or beams of particles. The choice of radiation depends on the type of crystallographic information needed. The most general tool for obtaining any crystallographic information is diffraction but other types of scattering or reflection and absorption phenomena are also ...
International Tables for Crystallography (2006). Vol. C, ch. 4.1, pp. 186-190 [ doi:10.1107/97809553602060000591 ]
... angular frequency in rad s-1, and the phase velocity v (and the group velocity). Intensity in r is given ... the beam of particles of mass m, moving with velocity v, behaves like waves with wavelength given by de Broglie's ... applications. Berlin: Springer Verlag. Kuz'min, R. N., Kolpakov, A. V. & Zhdanov, G. S. (1966). Rassejanie messbauerovskovo izlutschenija kristallami. ...
Infrared, visible, and ultraviolet light
International Tables for Crystallography (2006). Vol. C, Section 4.1.5.3, pp. 189-190 [ doi:10.1107/97809553602060000591 ]
Infrared, visible, and ultraviolet light 4.1.5.3. Infrared, visible, and ultraviolet light Visible light is one of the oldest tools used by crystallographers for macroscopic symmetry determination, for orientation of crystals, and in metallographic microscopes for phase analysis. Infrared and Raman spectroscopy are highly complementary methods in the infrared and visible range ...
[more results from section 4.1.5 in volume C]
Neutrons
International Tables for Crystallography (2006). Vol. C, Section 4.1.4.3, p. 189 [ doi:10.1107/97809553602060000591 ]
Neutrons 4.1.4.3. Neutrons The most important application of neutron diffraction is found in studies of magnetic structures (Marshall & Lovesey, 1971). The magnetic moment of neutrons is equal to 1.913[mu]N, where [mu]N is the nuclear magneton, and neutrons have spin I = 1/2. They can thus interact with ...
[more results from section 4.1.4 in volume C]
Most frequently used radiations
International Tables for Crystallography (2006). Vol. C, Section 4.1.3, pp. 187-188 [ doi:10.1107/97809553602060000591 ]
Most frequently used radiations 4.1.3. Most frequently used radiations Average diffraction properties of X-rays, high-energy electrons, and neutrons are listed in Table 4.1.3.1. They can be varied with respect to the material analysed by changing the incident-beam operating conditions and they also greatly depend on the mutual interaction ...
Electromagnetic waves and particles
International Tables for Crystallography (2006). Vol. C, Section 4.1.2, pp. 186-187 [ doi:10.1107/97809553602060000591 ]
... angular frequency in rad s-1, and the phase velocity v (and the group velocity). Intensity in r is given ... the beam of particles of mass m, moving with velocity v, behaves like waves with wavelength given by de Broglie's ...
Introduction
International Tables for Crystallography (2006). Vol. C, Section 4.1.1, p. 186 [ doi:10.1107/97809553602060000591 ]
Introduction 4.1.1. Introduction The radiations used in crystallography are either electromagnetic waves or beams of particles. The choice of radiation depends on the type of crystallographic information needed. The most general tool for obtaining any crystallographic information is diffraction but other types of scattering or reflection and absorption phenomena are also ...
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