Transonic dislocation propagation in diamond
K Katagiri, T Pikuz, L Fang, B Albertazzi, S Egashira… - Science, 2023 - science.org
The motion of line defects (dislocations) has been studied for more than 60 years, but the
maximum speed at which they can move is unresolved. Recent models and atomistic …
maximum speed at which they can move is unresolved. Recent models and atomistic …
Transonic dislocation propagation in diamond
K Katagiri, T Pikuz, L Fang, B Albertazzi, S Egashira… - Science, 2023 - hal.science
The motion of line defects (dislocations) has been studied for over 60 years but the
maximum speed at which they can move is unresolved. Recent models and atomistic …
maximum speed at which they can move is unresolved. Recent models and atomistic …
Transonic dislocation propagation in diamond.
K Katagiri, T Pikuz, L Fang, B Albertazzi… - Science (New York …, 2023 - europepmc.org
The motion of line defects (dislocations) has been studied for more than 60 years, but the
maximum speed at which they can move is unresolved. Recent models and atomistic …
maximum speed at which they can move is unresolved. Recent models and atomistic …
Transonic dislocation propagation in diamond
K Katagiri, T Pikuz, L Fang, B Albertazzi… - …, 2023 - polytechnique.hal.science
The motion of line defects (dislocations) has been studied for over 60 years but the
maximum speed at which they can move is unresolved. Recent models and atomistic …
maximum speed at which they can move is unresolved. Recent models and atomistic …
Transonic dislocation propagation in diamond
K Katagiri, T Pikuz, L Fang, B Albertazzi, S Egashira… - Science, 2023 - osti.gov
Here, the motion of line defects (dislocations) has been studied for more than 60 years, but
the maximum speed at which they can move is unresolved. Recent models and atomistic …
the maximum speed at which they can move is unresolved. Recent models and atomistic …
Transonic dislocation propagation in diamond
K Katagiri, T Pikuz, L Fang, B Albertazzi, S Egashira… - Science, 2023 - cnrs.hal.science
The motion of line defects (dislocations) has been studied for over 60 years but the
maximum speed at which they can move is unresolved. Recent models and atomistic …
maximum speed at which they can move is unresolved. Recent models and atomistic …
Transonic dislocation propagation in diamond
K Katagiri, T Pikuz, L Fang, B Albertazzi… - Science, 2023 - ui.adsabs.harvard.edu
The motion of line defects (dislocations) has been studied for more than 60 years, but the
maximum speed at which they can move is unresolved. Recent models and atomistic …
maximum speed at which they can move is unresolved. Recent models and atomistic …
Transonic Dislocation Propagation in Diamond
K Katagiri, T Pikuz, L Fang, B Albertazzi… - arXiv preprint arXiv …, 2023 - arxiv.org
The motion of line defects (dislocations) has been studied for over 60 years but the
maximum speed at which they can move is unresolved. Recent models and atomistic …
maximum speed at which they can move is unresolved. Recent models and atomistic …
Transonic dislocation propagation in diamond
K Katagiri, T Pikuz, L Fang… - … (New York, NY), 2023 - pubmed.ncbi.nlm.nih.gov
The motion of line defects (dislocations) has been studied for more than 60 years, but the
maximum speed at which they can move is unresolved. Recent models and atomistic …
maximum speed at which they can move is unresolved. Recent models and atomistic …
[PDF][PDF] Transonic dislocation propagation in diamond
K Katagiri, T Pikuz, L Fang, B Albertazzi, S Egashira… - hal.science
The motion of line defects (dislocations) has been studied for over 60 years but the
maximum speed at which they can move is unresolved. Recent models and atomistic …
maximum speed at which they can move is unresolved. Recent models and atomistic …