Neutron Scattering Data Analysis 1990, Proceedings of the Conference on Neutron Scattering, 14-16 March 1990, Rutherford Appleton Laboratory, UKM. W. Johnson |
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Page 74
... GENIE - V3 Structure Initially , GENIE - V3 does not aim to be too general in the models it represents . Here we look at how the structure of the code is built up to roughly the same level of model as embodied in GENIE - V2 . 4.1 ...
... GENIE - V3 Structure Initially , GENIE - V3 does not aim to be too general in the models it represents . Here we look at how the structure of the code is built up to roughly the same level of model as embodied in GENIE - V2 . 4.1 ...
Page 75
... 3 shows in a simplified manner how the entities in GENIE - V3 are built up and how the complex models rely on those of the more basic entities . 5. Implementation of GENIE - V3 The implementation of GENIE - V3 presents several views of ...
... 3 shows in a simplified manner how the entities in GENIE - V3 are built up and how the complex models rely on those of the more basic entities . 5. Implementation of GENIE - V3 The implementation of GENIE - V3 presents several views of ...
Page 78
... GENIE - V3 is modelling some physical entity called a work- space which has not yet been mentioned . 5.2 Workspaces In the early stages of the design of the GENIE - V3 language , there was much discussion about the concept of a ...
... GENIE - V3 is modelling some physical entity called a work- space which has not yet been mentioned . 5.2 Workspaces In the early stages of the design of the GENIE - V3 language , there was much discussion about the concept of a ...
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Common terms and phrases
additional algorithm allows analysis angle applications approach atoms average beam Bragg calculated cell combinatorial optimization configuration constant coordinates correction corresponding cost counts cross-section crystal deconvolution defined density dependent described detector determined diffraction direct display distribution effects elastic scattering energy error estimate example experiment experimental Figure final Fourier function give given inelastic intensity ISIS known limit magnetic Maximum Entropy measured method neutron neutron scattering normalization obtained optimization parameters particular peak performed Phys physical plot positive possible powder presented prior probability problem procedure radial distribution functions range reconstruction References refinement reflections resolution sample scale scan shown shows simulated annealing single solution space spectrum standard statistical structure factor temperature transfer transform unit usually vanadium vector wavelength