Add to ORKGInternational audienceSurface structuring of amorphous and crystals materials may find interest in many leading technological applications. The one we target is related to laser-driven surface topography modification, however, so far, no exhaustive study was made to really give a clear picture of the different mechanisms involved in this complex process. The main originality of this work is to investigate the ultrafast phenomena and the subsequent structural modifications triggered byfemtosecond laser pulses. In this context, classical molecular dynamics approach is proposed to capture solid-solid phase transformations in alloys. To manage our investigations, we have used LAMMPS to lead atomistic simulation, which is adapted to catch phenom...
The combination of high-energy pulsed-laser experiments and molecular dynamics simulations yields an...
International audienceSurface nanostructuring by femtosecond laser is an efficient way to manipulate...
The unique set of mechanical and magnetic properties possessed by metallic glasses has attracted a l...
International audienceSurface structuring of amorphous and crystals materials may find interest in m...
International audienceA promising route for manufacturing emergent metamaterials is the use of ultra...
International audienceSurface structuring of both amorphous and crystals materials may find interest...
International audienceThe physics of metallic glass local devitrification employing ultrafast laser ...
As a promising additive manufacturing technique, selective laser melting (SLM) provides the possibil...
The rearrangement of a material's electron density during laser irradiation leads to modified nonthe...
Phase evolution induced by single or repeated excitation with energetic femtosecond laser pulses is ...
Additive manufacturing by laser-based powder bed fusion is a promising technique for bulk metallic g...
This research program has explored the stability of alloys under pulsed laser irradiation. Two prima...
Laser micro-machining has been widely applied for material processing in many industries. A phenomen...
Selective laser melting can be used to build up 3D metal parts by melting metallic powders together....
The combination of high-energy pulsed-laser experiments and molecular dynamics simulations yields an...
International audienceSurface nanostructuring by femtosecond laser is an efficient way to manipulate...
The unique set of mechanical and magnetic properties possessed by metallic glasses has attracted a l...
International audienceSurface structuring of amorphous and crystals materials may find interest in m...
International audienceA promising route for manufacturing emergent metamaterials is the use of ultra...
International audienceSurface structuring of both amorphous and crystals materials may find interest...
International audienceThe physics of metallic glass local devitrification employing ultrafast laser ...
As a promising additive manufacturing technique, selective laser melting (SLM) provides the possibil...
The rearrangement of a material's electron density during laser irradiation leads to modified nonthe...
Phase evolution induced by single or repeated excitation with energetic femtosecond laser pulses is ...
Additive manufacturing by laser-based powder bed fusion is a promising technique for bulk metallic g...
This research program has explored the stability of alloys under pulsed laser irradiation. Two prima...
Laser micro-machining has been widely applied for material processing in many industries. A phenomen...
Selective laser melting can be used to build up 3D metal parts by melting metallic powders together....
The combination of high-energy pulsed-laser experiments and molecular dynamics simulations yields an...
International audienceSurface nanostructuring by femtosecond laser is an efficient way to manipulate...
The unique set of mechanical and magnetic properties possessed by metallic glasses has attracted a l...