Images of absolute retardance L.Deltan, using the rotating polariser method.
J Microsc 198 (Pt 1) (2000) 1-9
Abstract:
Modulation techniques for measuring changes in optical birefringence, such as the rotating-polariser method (Wood & Glazer, 1980, J. Appl. Crystallogr. 13, 217), allow one to determine |sin delta|, delta = 2piLDeltan/lambda, Deltan = double refraction, L = light path and lambda = wavelength. However, they generally suffer from not providing absolute values of the optical retardance or are limited to relatively low retardance values. In addition, knowledge of the absolute phase is required when establishing the correct values of optical orientation information. In this paper, it is shown how the phase delta, and thus optical retardance, can be extracted from combining measurements of |sin delta| at different wavelengths. The new approach works on each single point of a 2-D picture without the need to correlate with neighbouring points. There is virtually no limit to the retardance, and the computational efforts are small compared with other methods (e.g. Ajovalasit et al. 1998, J. Strain Analysis 33, 75). When used with imaging techniques, such as the rotating polariser method of Glazer, Lewis & Kaminsky 1996 (Proc. R. Soc. London Series A452, 2751) this process has the potential to identify automatically optically anisotropic substances under the microscope. The algorithm derived in this paper is valid not only for birefringence studies, but can be applied to all studies of interfering light waves.Phase transitions in tridymite studied using ‘Rigid Unit Mode’ theory, Reverse Monte Carlo methods and molecular dynamics simulations
Mineralogical Magazine Mineralogical Society 64:2 (2000) 267-283
Aspects of the structure and dynamics of the CMR material Nd0.5Pb0.5MnO3
Physica B Condensed Matter Elsevier 276 (2000) 774-775
Magnetic excitations of single-crystal PrBa2Cu3O6.2
PHYSICA B 276 (2000) 799-800
Abstract:
Measurements of the low-energy magnetic excitations in single-crystal PrBa2Cu3O6.2, and in YBa2Cu3O6.2 for comparison, have been performed using inelastic neutron scattering. An excitation with weak dispersion is seen, which is compared to a spin-wave model based on the lowest lying crystal field levels of the Pr ion, and including the effect of an anisotropic coupling to the Cu magnetic moments, as well as a Pr-Pr exchange interaction. (C) 2000 Elsevier Science B.V. All rights reserved.Modeling the magnetic structure of Dy7Fe3 metallic glass
Physical Review B American Physical Society (APS) 61:1 (2000) 487-491