Sebastian Orellana scite author profile

International audienceA metallic in-situ stress sensor is modified to address electrical polarization and thus to locally heat this sensor by Joule effect. By coupling SEM electrical nano-probing with analytical modeling and multiphysics Finite Element Method (FEM), the thermo-mechanical properties are identified. As a result, a tensile stress state of 190 MPa, coefficient of thermal expansion of 22.5×10-6 K-1 and thermal conductivity of 190 W/(K·m) are identified in the aluminum thin film in agreement with literature. Moreover, high current induces irreversible deformation and breaking. Using multiphysics FE model with identified thermo-mechanical properties, the failure of the sensor under electrical solicitation is investigated. The evolution of local temperature and mechanical deformation on different sensor designs allows the determination of the breaking location and condition

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Robust design of thermo-mechanical MEMS switch embedded in aluminium BEOL interconnect

Orellana

Arrazat

Fornara

et al. 2015

Microelectronics Reliability

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Sebastian Orellana

From stress sensor towards back end of line embedded thermo-mechanical sensor

Determination of material properties and failure using in-situ thermo-mechanical probe

Robust design of thermo-mechanical MEMS switch embedded in aluminium BEOL interconnect

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