Improved short channel device characteristics with stress relieved pre-oxide (SRPO) and a novel tantalum carbon alloy metal gate/HfO/sub 2/ stack

Improved short channel device characteristics with stress relieved pre-oxide (SRPO) and a novel tantalum carbon alloy metal gate/HfO/sub 2/ stack

Threshold voltage instability is a critical problem for high-K dielectric implementation. This problem is much more serious for short channel devices due to process induced gate edge damage. A novel stress relieved pre-oxide (SRPO) followed by ALD of HfO/sub 2/ reduces the local charge density near...

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Hauptverfasser: Tseng, H.-H., Capasso, C.C., Schaeffer, J.K., Hebert, E.A., Tobin, P.J., Gilmer, D.C., Triyoso, D., Ramon, M.E., Kalpat, S., Luckowski, E., Taylor, W.J., Jeon, Y., Adetutu, O., Hegde, R.I., Noble, R., Jahanbani, M., El Chemali, C., White, B.E.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Annealing
CMOS process
Dielectric substrates
Fabrication
Hafnium oxide
High-K gate dielectrics
Silicon
Temperature
Thermal stresses
Threshold voltage
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Zusammenfassung:Threshold voltage instability is a critical problem for high-K dielectric implementation. This problem is much more serious for short channel devices due to process induced gate edge damage. A novel stress relieved pre-oxide (SRPO) followed by ALD of HfO/sub 2/ reduces the local charge density near the gate edge and short channel threshold voltage instability. Excellent cross wafer CETinv uniformity is achieved for the SRPO process. A new tantalum carbon alloy metal gate achieves a lower Vtsat than TaSiN gated devices due to a lower work function. Compared to HfO/sub 2//TaSiN devices using standard RCA pre-clean, HfO/sub 2//tantalum carbon alloy metal gate stack using the novel SRPO demonstrates a 3/spl times/ smaller Vt shift for short channel devices and a 16% Ion/Ioff improvement.
DOI:10.1109/IEDM.2004.1419303