Length control of metal particles containing trajectories generated by metal sphere movement and elucidation of the relationship between metal sphere speed and metal addiction
Posted on 2020-04-01 - 13:28
High-intensity laser-irradiated metal spheres in glass move toward the light source while leaving doping metal in their trajectories. A method for controlling the trajectory length, which can be used for producing new optical devices in glass, has not been proposed yet. In-situ observations clarified the relationship in which the trajectory length increased with increasing laser power and irradiation duration; the maximum was 2.0 mm and the minimum was 0.1 mm. Microscopic observation, elemental analysis and counting the number of metal particles revealed that the maximum speed metal sphere generated the most metal-containing area with the greatest number of metal particles.
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Nishioka, Nobuyasu; Hidai, Hirofumi; matsusaka, Souta; chiba, Akira; Morita, Noboru (2020). Length control of metal particles containing trajectories generated by metal sphere movement and elucidation of the relationship between metal sphere speed and metal addiction. Optica Publishing Group. Collection. https://doi.org/10.6084/m9.figshare.c.4795422.v1
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AUTHORS (5)
NN
Nobuyasu Nishioka
HH
Hirofumi Hidai
Sm
Souta matsusaka
Ac
Akira chiba
NM
Noboru Morita