We have theoretically investigated the effect of the dielectric core and the dielectric embedding medium separately on the transmission spectra and plasmonic properties of coupled metallic nanotube arrays.It is found ...We have theoretically investigated the effect of the dielectric core and the dielectric embedding medium separately on the transmission spectra and plasmonic properties of coupled metallic nanotube arrays.It is found that the plasmonic properties of the nanotube arrays are strongly influenced by the presence of the dielectric which induces additional screening charges.We show that instead of one single photonic bandgap for the hollow nanotube arrays placed in air,an additional photonic bandgap arises from the presence of dielectric media in the transmission spectra.Based on the localized nature of the electric field distributions,we also clearly show the presence of the local plasmonic resonant modes that originate from multipolar plasmon polaritons in the cross section of these nanotube arrays,and that a large amount of opposing surface charges are built up in the gap between adjacent nanotubes.展开更多
In this work,we comprehensively investigate the response of amorphous and crystalline Zr-based alloys under nanosecond pulse laser ablation.The in situ multiphysics processes and ablation morphologies of the two alloy...In this work,we comprehensively investigate the response of amorphous and crystalline Zr-based alloys under nanosecond pulse laser ablation.The in situ multiphysics processes and ablation morphologies of the two alloy targets are explored and compared.The results indicate that the dynamics of laser-induced plasma and shock waves obey the idea blast wave theory and are insensitive to the topological structures of targets.Both targets experience significant superheating and culminate in explosive boiling.This ablation process leads to the formation of a hierarchical structure in the resultant ablation crater:microdents covered by widespread nanovoids.The amorphous target shows shallower microdents and smaller nanovoids than their crystalline counterparts because the former has a smaller heat-affected zone and experiences a higher degree of superheating.The hierarchical structure can adjust the surface wettability of targets from initial hydrophilic to hydrophobic,showing an increase of the contact angle approximately 119% for amorphous alloy compared with the crystal approximately 64%.This work demonstrates that amorphous alloys have a better performance against nanosecond pulse laser ablation and provides a feasible and one-step method of wettability modification for either amorphous or crystalline alloys.展开更多
基金the Excellent Doctorate Dissertation Foundation of Central South University (Grant No.2008yb039)the Postgraduate Innovative Project of Hunan Province (Grant No.CX2009B029)
文摘We have theoretically investigated the effect of the dielectric core and the dielectric embedding medium separately on the transmission spectra and plasmonic properties of coupled metallic nanotube arrays.It is found that the plasmonic properties of the nanotube arrays are strongly influenced by the presence of the dielectric which induces additional screening charges.We show that instead of one single photonic bandgap for the hollow nanotube arrays placed in air,an additional photonic bandgap arises from the presence of dielectric media in the transmission spectra.Based on the localized nature of the electric field distributions,we also clearly show the presence of the local plasmonic resonant modes that originate from multipolar plasmon polaritons in the cross section of these nanotube arrays,and that a large amount of opposing surface charges are built up in the gap between adjacent nanotubes.
基金supported by the National Outstanding Youth Science Fund Project(Grant No.12125206)of the National Natural Science Foundation of China(NSFC)the NSFC Basic Science Center for"Multiscale Problems in Nonlinear Mechanics"(Grant No.11988102)the NSFC(Grant Nos.11972345 and 11790292).
文摘In this work,we comprehensively investigate the response of amorphous and crystalline Zr-based alloys under nanosecond pulse laser ablation.The in situ multiphysics processes and ablation morphologies of the two alloy targets are explored and compared.The results indicate that the dynamics of laser-induced plasma and shock waves obey the idea blast wave theory and are insensitive to the topological structures of targets.Both targets experience significant superheating and culminate in explosive boiling.This ablation process leads to the formation of a hierarchical structure in the resultant ablation crater:microdents covered by widespread nanovoids.The amorphous target shows shallower microdents and smaller nanovoids than their crystalline counterparts because the former has a smaller heat-affected zone and experiences a higher degree of superheating.The hierarchical structure can adjust the surface wettability of targets from initial hydrophilic to hydrophobic,showing an increase of the contact angle approximately 119% for amorphous alloy compared with the crystal approximately 64%.This work demonstrates that amorphous alloys have a better performance against nanosecond pulse laser ablation and provides a feasible and one-step method of wettability modification for either amorphous or crystalline alloys.
