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Ion-beam induced CoSi2 layers - formation and contact properties.

Ionenstrahlinduzierte CoSi2-Schichten - Bildung und Kontakteigenschaften
: Dehm, C.; Kasko, I.; Ryssel, H.


Nuclear instruments and methods in physics research, Section A. Accelerators, spectrometers, detectors and associated equipment 84 (1994), S.148-152
ISSN: 0167-5087
ISSN: 0168-9002
Fraunhofer IIS B ( IISB) ()
Analyse; Ionenimplantation; Ionenstrahlmischen; Kontakt; Kurzzeitausheilen; pn-Übergang; Profil; Silizid; simulation; Struktur

In this study, the influence of Ge and As ion energy, respectively, on the mixing behavior and the contact properties of the Co-Si system was investigated by Monte-Carlo-simulations, SIMS, RBS, TEM, and electrical measurements. To achieve silicided nhighplus p junctions, 30 nm Co on Si were mixed with (1-5)highstar 10high15 qcmhigh-2 Ge or As ions in the energy-range from 50 to 200 keV. Silicidation was performed in a RTA system at 700 and 1000 degree Celsius. In case of Ge mixing, the nhighplus p junction was formed by As implantation either before or after silicidation. It could be shown that ion-beam mixing with Ge and As ions followed by rapid thermal annealing lead to homogeneous silicidation for all mixing energies and ion species used. SIMS analysis of doping profiles as well as measurement of leakage currents revealed, however, that only Ge ion-beam mixing is an appropriate method for formation of low- resistivity, homogeneous silicide contacts either on previously or subsequen tly formed shallow nhighplus p junctions.