Abstract
The study of crystal structures by means of dynamic X-ray diffraction has placed a challenge to theoreticians to revise the X-ray diffraction theory based on Maxwell`s equation. In this paper the feasibility of using `polarisation resonance` as a tool in the determination of absolute configuration for asymmetric structures is investigated. Two (left- and right-handed), {sigma}{sup +} and {sup {sigma}-}, circular polarization states for 3-beam conditions are considered. Moreover, extending interaction into the 3 rd. dimension (normal to the beam) opens the possibility of absolute configuration determination of asymmetric structures in 3 dimensions. The computational scheme used is shown in terms of scattering diagrams. 7 refs., 1 tab., 6 figs.
Citation Formats
Goodman, P, Paterson, D, and Matheson, S.
Polarisation resonance in X-ray diffraction.
Australia: N. p.,
1994.
Web.
Goodman, P, Paterson, D, & Matheson, S.
Polarisation resonance in X-ray diffraction.
Australia.
Goodman, P, Paterson, D, and Matheson, S.
1994.
"Polarisation resonance in X-ray diffraction."
Australia.
@misc{etde_10113829,
title = {Polarisation resonance in X-ray diffraction}
author = {Goodman, P, Paterson, D, and Matheson, S}
abstractNote = {The study of crystal structures by means of dynamic X-ray diffraction has placed a challenge to theoreticians to revise the X-ray diffraction theory based on Maxwell`s equation. In this paper the feasibility of using `polarisation resonance` as a tool in the determination of absolute configuration for asymmetric structures is investigated. Two (left- and right-handed), {sigma}{sup +} and {sup {sigma}-}, circular polarization states for 3-beam conditions are considered. Moreover, extending interaction into the 3 rd. dimension (normal to the beam) opens the possibility of absolute configuration determination of asymmetric structures in 3 dimensions. The computational scheme used is shown in terms of scattering diagrams. 7 refs., 1 tab., 6 figs.}
place = {Australia}
year = {1994}
month = {Dec}
}
title = {Polarisation resonance in X-ray diffraction}
author = {Goodman, P, Paterson, D, and Matheson, S}
abstractNote = {The study of crystal structures by means of dynamic X-ray diffraction has placed a challenge to theoreticians to revise the X-ray diffraction theory based on Maxwell`s equation. In this paper the feasibility of using `polarisation resonance` as a tool in the determination of absolute configuration for asymmetric structures is investigated. Two (left- and right-handed), {sigma}{sup +} and {sup {sigma}-}, circular polarization states for 3-beam conditions are considered. Moreover, extending interaction into the 3 rd. dimension (normal to the beam) opens the possibility of absolute configuration determination of asymmetric structures in 3 dimensions. The computational scheme used is shown in terms of scattering diagrams. 7 refs., 1 tab., 6 figs.}
place = {Australia}
year = {1994}
month = {Dec}
}