Title :
FDSOI bottom MOSFETs stability versus top transistor thermal budget featuring 3D monolithic integration
Author :
Fenouillet-Beranger, C. ; Previtali, B. ; Batude, P. ; Nemouchi, F. ; Casse, M. ; Garros, Xavier ; Tosti, L. ; Rambal, N. ; Lafond, D. ; Dansas, H. ; Pasini, L. ; Brunet, L. ; Deprat, F. ; Gregoire, M. ; Mellier, M. ; Vinet, M.
Author_Institution :
Univ. Grenoble Alpes, Grenoble, France
Abstract :
To set up specification for 3D monolithic integration, for the first time, the thermal stability of state-of-the-art FDSOI (Fully Depleted SOI) transistors electrical performance is quantified. Post fabrication annealings are performed on FDSOI transistors to mimic the thermal budget associated to top layer processing. Degradation of the silicide for thermal treatments beyond 400°C is identified as the main responsible for performance degradation for PMOS devices. For the NMOS transistors, arsenic (As) and phosphorus (P) dopants deactivation adds up to this effect. By optimizing both the n-type extension implantations and the bottom silicide process, thermal stability of FDSOI can be extended to allow relaxing upwards the thermal budget authorized for top transistors processing.
Keywords :
MOSFET; annealing; silicon-on-insulator; thermal stability; 3D monolithic integration; FDSOI transistors; MOSFET stability; NMOS transistors; PMOS devices; Si; annealings; arsenic dopants deactivation; fully depleted SOI transistors; phosphorus dopants deactivation; thermal budget; thermal stability; thermal treatments; top layer processing; top transistor; Annealing; Degradation; MOS devices; Resistance; Silicides; Thermal stability; Transistors;
Conference_Titel :
Solid State Device Research Conference (ESSDERC), 2014 44th European
Conference_Location :
Venice
Print_ISBN :
978-1-4799-4378-4
DOI :
10.1109/ESSDERC.2014.6948770
