Predicting high-pressure and excited-state properties of real materials
Abstract
one of the breakthroughs in condensed matter physics is the newly acquired ability of theorists to explain and predict properties of solids using quantum theory. Starting with minimal information about the constituent atoms, the electronic, structural, vibrational, optical, and even superconducting properties of solids have been calculated accurately. Supercomputers have made these applications possible and have led to new theoretical concepts and techniques. The applications described focus on the analysis of high-pressure properties of hydrogen, superhard compounds, and semiconductor surfaces. These calculations give results that are consistent with experimenal data, and in some cases successfully predict properties of materials.
- Publication:
-
International Journal of Supercomputer Applications
- Pub Date:
- 1991
- Bibcode:
- 1991IJScA...5...21W
- Keywords:
-
- Band Structure Of Solids;
- Condensed Matter Physics;
- Hydrogen;
- Quantum Theory;
- Semiconductors (Materials);
- Solidified Gases;
- Surface Properties;
- Diamonds;
- Diatomic Molecules;
- Eigenvectors;
- Electron Energy;
- Excitation;
- Fortran;
- Gallium Arsenides;
- Green'S Functions;
- Ground State;
- High Pressure;
- Hydrogen Atoms;
- Monte Carlo Method;
- Quantum Mechanics;
- Silicon;
- Supercomputers;
- Physics (General)