LEAST ACTION PRINCIPLE OF CRYSTAL...(V3)
| By: | Hsiang Wu-yi |
| Publisher: | World Scientific Publishing |
| Print ISBN: | 9789810246709 |
| eText ISBN: | 9789812384911 |
| Edition: | 0 |
| Format: | Page Fidelity |
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The dense packing of microscopic spheres (i.e. atoms) is the basic geometric arrangement in crystals of mono-atomic elements with weak covalent bonds, which achieves the optimal “known density” of B/√18. In 1611, Johannes Kepler had already “conjectured” that B/√18 should be the optimal “density” of sphere packings. Thus, the central problems in the study of sphere packings are the proof of Kepler's conjecture that B/√18 is the optimal density, and the establishing of the least action principle that the hexagonal dense packings in crystals are the geometric consequence of optimization of density. This important book provides a self-contained proof of both, using vector algebra and spherical geometry as the main techniques and in the tradition of classical geometry.