X-ray Diffraction |
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Page 463
... monochromator , the main paper being that of Lang ( 1956b ) . A. Plane - crystal monochromators A plane - crystal monochromator ... monochromator arrangements A Plane-crystal monochromators B Curved-crystal monochromators in reflection.
... monochromator , the main paper being that of Lang ( 1956b ) . A. Plane - crystal monochromators A plane - crystal monochromator ... monochromator arrangements A Plane-crystal monochromators B Curved-crystal monochromators in reflection.
Page 464
... monochromator . If the effective absorption coefficient is eff after bending ( which would affect extinction effects ... monochromator . Lang does not consider the axial divergence to be significant ; probably its effect is to alter the ...
... monochromator . If the effective absorption coefficient is eff after bending ( which would affect extinction effects ... monochromator . Lang does not consider the axial divergence to be significant ; probably its effect is to alter the ...
Page 542
... monochromator results ( Sparks , 1967 ) . Furthermore , the material can be fashioned quite easily in the form of both singly bent and doubly bent focusing monochromators . Curiously , the rapidly developing and rather widespread ...
... monochromator results ( Sparks , 1967 ) . Furthermore , the material can be fashioned quite easily in the form of both singly bent and doubly bent focusing monochromators . Curiously , the rapidly developing and rather widespread ...
Contents
Scattering by atoms | 1 |
Inelastic scattering theory | 18 |
21 | 43 |
Copyright | |
28 other sections not shown
Common terms and phrases
absorption Acta Cryst amplitude angle angular approximation atoms Bloch wave Borrmann Bragg Bragg angle Bragg condition Bragg peak calculated Chap coefficient Compton profile considered Core Total corresponding cos² crystal waves defined detector diffractometer direction discussed dispersion surface displacement dynamical theory effect electron energy equation error Ewald sphere exit surface exp i(K experimental FIGURE Fourier function G waves geometrical given Hartree-Fock incident beam integrated intensity Kmax Kohra lattice Laue Maxwell equations measurements method momentum density monochromator obtained optical parameters peak Pendellösung fringes perfect crystals perpendicular phase Phys plane wave plane-wave theory position Poynting vector r₁ radiation range rays reciprocal space reciprocal-lattice point reflection relation respectively rocking curve scan scattering factor shown in Fig sin² slit solution specimen spherical symmetrical topograph transform values wave fields wave vectors wavefunction wavelength x rays x-ray diffraction