Phase-contrast microscopy detects threading dislocations with in-plane Burgers vectors in GaN and enables 3D visualization by focal plane adjustment, validated against multiphoton photoluminescence imaging.
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Cellular automata simulations demonstrate a reversible transition from meandered step patterns to faceted mounds on miscut crystal surfaces, driven by competition between the Ehrlich-Schwoebel barrier and terrace adatom mobility.
citing papers explorer
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High-throughput, Non-Destructive, Three-Dimensional Imaging of GaN Threading Dislocations with in-Plane Burgers Vector Component via Phase-Contrast Microscopy
Phase-contrast microscopy detects threading dislocations with in-plane Burgers vectors in GaN and enables 3D visualization by focal plane adjustment, validated against multiphoton photoluminescence imaging.
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Morphological Transition: From Meanders to Mound Structures
Cellular automata simulations demonstrate a reversible transition from meandered step patterns to faceted mounds on miscut crystal surfaces, driven by competition between the Ehrlich-Schwoebel barrier and terrace adatom mobility.
- The high K anomaly in ScAlN explained