The Net Advance of Physics:
DISLOCATIONS

DISLOCATIONS:

• General: Introductory: Sethna 92;

• General: Froehlich et al. 95/08;
  • Ab Initio Models of Dislocations by Emmanuel Clouet [2019/01]

• Processes: FORMATION: Re: MOLECULAR BEAM EPITAXY: Politi et al. 99/06;
• Processes: PHASE TRANSITIONS: Types: COARSENING: Bray 95/01;

• Re: CERAMICS:
  • A brief history of dislocations in ceramics: From Steinsalz to quantum wires by X.-F. Fang [2025/06]

• Re: CRYSTALS: LIQUID CRYSTALS: Bray 95/01;
• Re: CRYSTALS: POLYCRYSTALS Peralta, 97/02;
• Re: CRYSTALS: SINGLE CRYSTALS: Peralta, 97/02;

• Re: CRYSTALS: SOFT:
  • When soft crystals defy Newton's Third Law: Non-reciprocal mechanics and dislocation motility by A. Poncet and D. Bartolo [2021/10]

• Re: DENSITY WAVES: Melikidze 98/03;
• Re: FATIGUE: Peralta, 97/02;
• Re: FRACTURE: Peralta, 97/02;

• Re: GRAPHITE:
  • Exploring two-dimensional empty space by A. K. Geim [2021/07] i.e. 2D dislocations in graphite after a graphene sheet is removed.

• Re: HARDENING: Peralta, 97/02;
• Re: MEMBRANES: Nelson 95/02;
• Re: PHASE ORDERING KINETICS: Bray 95/01;

• Re: SINTERING:
  • Thermodynamic theory of sintering and swelling by Y. Kornyushin [2007/01]

• Re: TORSION TENSOR: Froehlich (page 12) 95/08; Ruggiero and Tartaglia 2003/06;
  • Élie Cartan's torsion in geometry and in field theory by Friedrich W. Hehl and Yuri N. Obukhov [2007/11]

THE NET ADVANCE OF PHYSICS