Title :
Efficient production of silicon-on-insulator films by co-implantation of He+ with H+
Author :
Agarwal, Aditya ; Haynes, T.E. ; Venezia, V.C. ; Eaglesham, D.J. ; Welson, M.K. ; Chabal, Y.J. ; Holland, O.W.
Author_Institution :
Oak Ridge Nat. Lab., TN, USA
Abstract :
The thin film separation process with H+ proceeds by both chemical interactions (bond breaking and internal surface passivation) and physical interaction (gas coalescence, pressure, fracture) of implanted H+ with the Si substrate. It is difficult to isolate the contribution of each component to the overall process using implantation of H only. In this work, we have combined H + and He+ gas implantation to decouple the physical and chemical contributions to the blistering and thin film separation processes. We have observed that combination of H and He gas implants results in a synergistic effect that allows the threshold dose for both processes to be significantly reduced
Keywords :
helium; hydrogen; ion implantation; optical microscopy; passivation; semiconductor thin films; silicon; silicon-on-insulator; transmission electron microscopy; Si:H,He; blistering; bond breaking; chemical interactions; gas coalescence; internal surface passivation; physical interaction; silicon-on-insulator films; synergistic effect; thin film separation process; threshold dose; Bonding; Chemical processes; Helium; Passivation; Production; Semiconductor films; Semiconductor thin films; Separation processes; Silicon on insulator technology; Surface cracks;
Conference_Titel :
SOI Conference, 1997. Proceedings., 1997 IEEE International
Conference_Location :
Fish Camp, CA
Print_ISBN :
0-7803-3938-X
DOI :
10.1109/SOI.1997.634924
