Ultrafast Laser Welding of Silicon

GND
124425214X
ORCID
0000-0003-1910-2296
Affiliation
Institute of Applied Physics Abbe Center of Photonics Friedrich Schiller University Jena Albert-Einstein-Straße 15 07745 Jena Germany
Chambonneau, Maxime;
GND
1244310298
ORCID
0000-0003-2063-3510
Affiliation
Institute of Applied Physics Abbe Center of Photonics Friedrich Schiller University Jena Albert-Einstein-Straße 15 07745 Jena Germany
Li, Qingfeng;
GND
1244252484
ORCID
0000-0002-0890-2186
Affiliation
Institute of Applied Physics Abbe Center of Photonics Friedrich Schiller University Jena Albert-Einstein-Straße 15 07745 Jena Germany
Blothe, Markus;
GND
1322962332
Affiliation
Institute of Applied Physics Abbe Center of Photonics Friedrich Schiller University Jena Albert-Einstein-Straße 15 07745 Jena Germany
Arumugam, Stree Vithya;
GND
121566366
ORCID
0000-0002-2919-2662
Affiliation
Institute of Applied Physics Abbe Center of Photonics Friedrich Schiller University Jena Albert-Einstein-Straße 15 07745 Jena Germany
Nolte, Stefan

While ultrafast laser welding is an appealing technique for bonding transparent workpieces, it is not applicable for joining silicon samples due to nonlinear propagation effects which dramatically diminish the possible energy deposition at the interface. It is demonstrated that these limitations can be circumvented by local absorption enhancement at the interface thanks to metallic nanolayer deposition. By combining the resulting exalted absorption with filament relocation during ultrafast laser irradiation, silicon samples can be efficiently joined. Shear joining strengths >4 MPa are obtained for 21 nm gold nanolayers without laser‐induced alteration of the transmittance. Such remarkable strength values hold promise for applications in microelectronics, optics, and astronomy.

Cite

Citation style:
Could not load citation form.

Rights

License Holder: © 2023 Wiley‐VCH GmbH

Use and reproduction: