Title :
Characterization of boron and phosphorus surface contamination in high current ion implantation
Author :
Bernstein, J.D. ; Alvarez, A.W. ; Benton, E.B. ; Cherukuri, K.C. ; Otten, C.M.
Abstract :
Both implant equipment vendors and semiconductor manufacturers expend significant resources to reduce cross-species surface contamination. Equipment vendors continually refine their implanter designs to this end, while chipmakers may utilize in situ processes to sputter-clean beamline and process chamber surfaces during a dopant species change. This paper investigates the effectiveness of ion beam sputter processes to reduce boron and phosphorus cross-contamination. Results are compared for as-implanted wafers, and wafers that receive a post-implant plasma ash and wet clean. Additionally, device wafers are processed with varying levels of surface contamination at source-drain extension implant in order to evaluate the effects on transistor parameters.
Keywords :
boron; ion implantation; phosphorus; semiconductor doping; sputtering; surface cleaning; surface contamination; B surface contamination; P surface contamination; as-implanted wafers; dopant species change; high current ion implantation; implant equipment vendors; post-implant plasma ash clean; post-implant wet clean; process chamber surfaces; reduce cross-species surface contamination; semiconductor manufacturers; sputter-clean beamline surfaces; Boron; Implants; Ion beams; Ion implantation; Plasma devices; Plasma immersion ion implantation; Refining; Semiconductor device manufacture; Surface cleaning; Surface contamination;
Conference_Titel :
Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on
Conference_Location :
Taos, New Mexico, USA
Print_ISBN :
0-7803-7155-0
DOI :
10.1109/IIT.2002.1257967
