4.8 Article

Taming Ultrafast Laser Filaments for Optimized Semiconductor-Metal Welding

期刊

LASER & PHOTONICS REVIEWS
卷 15, 期 2, 页码 -

出版社

WILEY-V C H VERLAG GMBH
DOI: 10.1002/lpor.202000433

关键词

copper; filamentation; material analyses; nonlinear propagation; semiconductor; silicon; ultrafast laser welding

资金

  1. Bundesministerium fur Bildung und Forschung (BMBF) through the NUCLEUS project [03IHS107A]
  2. glass2met project [13N15290]
  3. National Priorities Research Program from the Qatar National Research Fund (member of The Qatar Foundation) [NPRP11S-1128-170042]
  4. Projekt DEAL

向作者/读者索取更多资源

Research shows that by precompensating for nonlinear focal shift, semiconductor-metal ultrafast laser welding can be achieved, resulting in welds with shear joining strengths of up to 2.2 MPa. Material analyses shed light on the physical mechanisms involved during the interaction.
Ultrafast laser welding is a fast, clean, and contactless technique for joining a broad range of materials. Nevertheless, this technique cannot be applied for bonding semiconductors and metals. By investigating the nonlinear propagation of picosecond laser pulses in silicon, it is elucidated how the evolution of filaments during propagation prevents the energy deposition at the semiconductor-metal interface. While the restrictions imposed by nonlinear propagation effects in semiconductors usually inhibit countless applications, the possibility to perform semiconductor-metal ultrafast laser welding is demonstrated. This technique relies on the determination and the precompensation of the nonlinear focal shift for relocating filaments and thus optimizing the energy deposition at the interface between the materials. The resulting welds show remarkable shear joining strengths (up to 2.2 MPa) compatible with applications in microelectronics. Material analyses shed light on the physical mechanisms involved during the interaction.

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