## Neutron scattering data analysis 1990: invited and contributed papers from the Conference on Neutron Scattering Data Analysis held at the Rutherford Appleton Laboratory, Chilton, 14-16 March 1990 |

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Page 256

3.1

above is defined by the used maximum incident neutron energy, whereas the

upper limit is in general defined by technical limitations of the analyser crystal's ...

3.1

**Scan**Tailoring for ROTAX The lower limit of the physical**scan**part mentionedabove is defined by the used maximum incident neutron energy, whereas the

upper limit is in general defined by technical limitations of the analyser crystal's ...

Page 258

A desired

with respect to a particular

physical part of the

...

A desired

**scan**with ROTAX, i.e. the desired rotational function of the motor drivewith respect to a particular

**scan**in the experimentally accessible (Q,u)-space (physical part of the

**scan**) and its corresponding requirements in the repositioning...

Page 261

acceleration versus time; without any refinement (see text).

requirements: b) angular difference "ist"-"soll", angular speed and acceleration

versus ...

**Scan**performance of a test a) angular difference "ist"-"soll", angular speed andacceleration versus time; without any refinement (see text).

**scan**with typicalrequirements: b) angular difference "ist"-"soll", angular speed and acceleration

versus ...

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### Common terms and phrases

Acta Cryst algorithm applications approach atoms Bayesian beam Bragg peaks calculated configuration constraints coordinates corresponding cost function cross-section crystallographic Data Anal data analysis data set defined detector bank determined diffraction data diffractometer elastic scattering energy error bars example experiment experimental Figure Fourier transform Gaussian GENIE GENIE-V3 histogram inelastic instrument intensity interpolation inverse ISIS least squares likelihood function magnetic structure magnetisation density Markov chain matrix MaxEnt Reconstruction Maximum Entropy McGreevy measured method molecular Monte Carlo neutron diffraction neutron scattering normalisation normalization obtained optimisation optimization problems parameters Patterson map performed Phys plot positive powder diffraction presented at Neutron prior probability procedure quasielastic refinement reflectivity data resolution function ROTAX Rutherford Appleton Laboratory sample scan scattering law shown simulated annealing single crystal solution spectra spectrometer spectrum statistical structure factor symmetry technique temperature time-of-flight UNIRAS unit cell vanadium vector wavelength workspace