The topic fits into the deployment of silicon technologies at the European level (European chips act), led by CEA-Leti. The focus will be on providing advanced technological building blocks for electrical routing (Back End of Line) of logic and analog devices. The development of increasingly high-performance circuits requires interconnections with more aggressive dimensions. The use of traditional routing materials such as copper is therefore being questioned, as is the conventional back-end of line (BEOL) architecture. This thesis topic will address a breakthrough approach, necessary to achieve these ultimate dimensions. The objective of this PhD is to develop a BEOL technological building block for the advanced SOI (Silicon on Insulator) nodes through a direct metal etching approach. After a preliminary simulation of the electrical properties of interconnections made with different metals, the work will consist in proposing and implementing an innovative integration. In the first phase, the task will be to determine the design of the electrical test structures and establish an integration scheme. In the second phase, the research work will focus on studying the direct etching of the selected metal using sustainable processes while maintaining the performance of both the processes and the final device. The candidate will be able to rely on the eco-innovation team to perform a comparative life cycle analysis (LCA) of this building block. The PhD contract is for a duration of 3 years and the research work will take place in the clean rooms of CEA-Leti. To successfully carry out this study, the candidate will have access to state-of-the-art equipment and a cutting-edge work environment.
Master2 en Physique, Nanosciences et nanotechnologies, Sciences des matériaux ou Génie électrique
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