| 1. | At the end, both point defects and dislocation loops remain.
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| 2. | Point defects can nucleate reversed domains in ferromagnets and dramatically affect their coercivity.
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| 3. | These irregularities are point defects and line defects.
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| 4. | Grain boundaries also cause deformation in that they are sources and sinks of point defects.
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| 5. | It is the simplest point defect.
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| 6. | There are three main point defects.
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| 7. | This can be extended to find the equilibrium concentration of other types of surface point defects as well.
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| 8. | Charged impurity ions and point defects have scattering cross-sections that are much greater than their neutral counterparts.
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| 9. | A point defect is an irregularity located at a single lattice site inside of the overall three-dimensional lattice of the grain.
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| 10. | While point defects are irregularities at a single site in the crystal lattice, line defects are irregularities on a plane of atoms.
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