Multi-Level Cu Interconnects Integration and Characterization with Air Gap as Ultra-Low K Material Formed using a Hybrid Sacrificial Oxide / Polymer Stack

Multi-Level Cu Interconnects Integration and Characterization with Air Gap as Ultra-Low K Material Formed using a Hybrid Sacrificial Oxide / Polymer Stack

The introduction of air gaps in multi-level Cu interconnect stacks will be mandatory to achieve high performance signal propagation characteristics for advanced technology node. In this paper, air cavities were successfully introduced in a two-metal level interconnect stack using respectively a poly...

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Hauptverfasser: Gosset, L.G., Gaillard, F., Bouchu, D., Gras, R., de Pontcharra, J., Orain, S., Cueto, O., Lyan, P., Louveau, O., Passemard, G., Torres, J.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Chemistry
Dielectric materials
Hafnium
Integrated circuit interconnections
LAN interconnection
Packaging
Polymers
Semiconductor materials
Silicon carbide
Time division multiplexing
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Zusammenfassung:The introduction of air gaps in multi-level Cu interconnect stacks will be mandatory to achieve high performance signal propagation characteristics for advanced technology node. In this paper, air cavities were successfully introduced in a two-metal level interconnect stack using respectively a polymer and a sacrificial SiO 2 at via and metal levels. Combined with a diluted HF chemistry and specific HF diffusion pathways patterned in a SiC liner, the ability to localize the introduction of air cavities in a dedicated large electrical area was demonstrated. Electrical characteristics and mechanical simulations demonstrated the interest of the approach with respect to ultra-low K material integration issues.
ISSN:2380-632X
2380-6338
DOI:10.1109/IITC.2007.382348