In Situ Process Control of Trilayer Gate-Stacks on p-Germanium With 0.85-nm EOT

In Situ Process Control of Trilayer Gate-Stacks on p-Germanium With 0.85-nm EOT

In situ spectroscopic ellipsometry was utilized in an atomic-layer-deposition (ALD) reactor for rapid and rational gate stack process optimization of the trilayer dielectric HfO 2 /Al 2 O 3 /GeO x on Ge. The benefit of this approach was demonstrated by developing an entire process in situ: 1) native...

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Veröffentlicht in:IEEE electron device letters 2015-09, Vol.36 (9), p.881-883
Hauptverfasser: Zheng, Y. X., Agrawal, A., Rayner, G. B., Barth, M. J., Ahmed, K., Datta, S., Engel-Herbert, R.
Format: Artikel
Sprache:eng
Schlagworte:
Aluminum oxide
atomic hydrogen clean
Hafnium compounds
Leakage currents
Logic gates
MOSCAP
Rough surfaces
Surface roughness
Surface treatment
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Zusammenfassung:In situ spectroscopic ellipsometry was utilized in an atomic-layer-deposition (ALD) reactor for rapid and rational gate stack process optimization of the trilayer dielectric HfO 2 /Al 2 O 3 /GeO x on Ge. The benefit of this approach was demonstrated by developing an entire process in situ: 1) native oxide removal by hydrogen plasma; 2) controlled reoxidation for Ge surface passivation; and 3) deposition of Al 2 O 3 and HfO 2 using thermal ALD. The low-k layer thicknesses were scaled down without losing their respective functions, i.e., GeO x to form an electrically well behaved interface with Ge and Al 2 O 3 to thermodynamically stabilize the GeO x /Ge interface. Aggressive equivalent-oxide-thickness scaling of the trilayer stack down to 0.85 nm with a low gate leakage of 0.15 mA/cm 2 at V FB - 1 V was achieved, while preserving a high-quality dielectric-semiconductor interface.
ISSN:0741-3106
1558-0563
DOI:10.1109/LED.2015.2459663