Application of Multiple Scattering Theory to Materials Science: Volume 253W. H. Butler The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners. |
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Page 211
... relativistic full potential multiple scattering theory ( MST ) in direct analog to the non - relativistic full potential MST [ 1 , 2 ] . The secular equation is derived from the Lippmann - Schwinger equation by expanding the wave ...
... relativistic full potential multiple scattering theory ( MST ) in direct analog to the non - relativistic full potential MST [ 1 , 2 ] . The secular equation is derived from the Lippmann - Schwinger equation by expanding the wave ...
Page 305
... relativistic effects may be important . For instance , while the exchange interaction is isotropic in non - relativistic quantum mechanics the coupling between spin and orbital degrees of freedom in relativistic quantum mechanics ...
... relativistic effects may be important . For instance , while the exchange interaction is isotropic in non - relativistic quantum mechanics the coupling between spin and orbital degrees of freedom in relativistic quantum mechanics ...
Page 329
... relativistic version of multiple scattering theory ( SPRKKR ) to study the electronic properties of dilute and concentrated disordered alloys are presented . This approach , developed recently , allows to investigate magnetic systems ...
... relativistic version of multiple scattering theory ( SPRKKR ) to study the electronic properties of dilute and concentrated disordered alloys are presented . This approach , developed recently , allows to investigate magnetic systems ...
Contents
TRANSFER OF CLASSICAL MULTIPLE SCATTERING THEORY | 3 |
EXPERIENCES WITH THE QUADRATIC KORRINGAKOHNROSTOKER | 27 |
THE MUFFINTINORBITAL POINT OF VIEW | 37 |
Copyright | |
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Common terms and phrases
alloys application approach approximation atoms average band basis calculations cell charge cluster complex composite computed concentration considered constant contributions convergence corresponding crystal defined density dependence derived described determined direction discussed disordered effects electronic electronic structure elements energy equation example expansion experiment experimental expression Fermi field Figure formalism given gives Green function Green's important impurity indicates integral interactions interface lattice layer limit linear magnetic Materials matrix metals method mode muffin-tin multiple scattering neighbor Note obtained parameters phase Phys Physics position potential present problem properties quantum mechanics REFERENCES region relativistic represent representation resistivity respect scattering theory shown single solid solution solved space sphere spherical structure surface Table temperature theory transition unit variational volume wave wave function