Title :
A new mechanism of leakage current in ultra-shallow junctions with TiSi2 contacts
Author :
Lau, Wai Shing ; Qian, Peng Wei ; Zhao, Rong
Author_Institution :
Centre for IC Failure Anal. & Reliability, Nat. Univ. of Singapore, Singapore
Abstract :
For shallow n+/p and p+/n junctions with TiSi2 contacts, the leakage current quite frequently increases after silicidation. When the Ti layer for silicidation is thick, the leakage current of shallow p+/n junctions increases much more strongly than shallow n+/p junctions after silicidation. This is usually explained by Si consumption due to silicidation. When the Ti layer for silicidation is thin, the leakage current of shallow n+/p junctions increases more strongly than shallow p+/n junctions after silicidation. In this paper, a new mechanism of Ti+ drift due to the built-in electric field is proposed to explain the larger leakage current of shallow n+/p junctions than that of shallow p+/n junctions after silicidation. A numerical simulation with the pc-1d software package was performed to calculate the electric field distribution for shallow junctions under various conditions
Keywords :
leakage currents; metallisation; p-n junctions; titanium compounds; Ti+ drift; TiSi2; TiSi2 contact; built-in electric field; leakage current; n+/p junction; numerical simulation; p+/n junction; pc-1d software package; salicide technology; silicidation; ultra-shallow junction; CMOS technology; Contact resistance; Failure analysis; Integrated circuit technology; Leakage current; MOSFETs; Numerical simulation; Schottky barriers; Silicidation; Silicides;
Conference_Titel :
Physical & Failure Analysis of Integrated Circuits, 1997., Proceedings of the 1997 6th International Symposium on
Print_ISBN :
0-7803-3985-1
DOI :
10.1109/IPFA.1997.638206
