A Low-Power HKMG CMOS Platform Compatible With Dram Node 2× and Beyond

Author

Ritzenthaler, R. ; Schram, T. ; Spessot, A. ; Caillat, Christian ; Aoulaiche, Marc ; Moon Ju Cho ; Kyoung Bong Noh ; Son, Yeongrack ; Hoon Joo Na ; Kauerauf, T. ; Douhard, B. ; Nazir, A. ; Soon Aik Chew ; Milenin, A.P. ; Altamirano-Sanchez, E. ; Schoofs,

Author_Institution

imec, Leuven, Belgium

Volume

61

Issue

8

fYear

2014

fDate

Aug. 2014

Firstpage

2935

Lastpage

2943

Abstract

In this paper, a low-cost and low-leakage gate-first high-k metal-gate CMOS integration compatible with the high thermal budget used in a 2× node dynamic random access memory process flow is reported. The metal inserted polysilicon stack is based on HfO₂ coupled with Al₂O₃ capping for pMOS devices, and with a TiN/Mg/TiN stack together with As ion implantation for nMOS. It is demonstrated that n and pMOS performance of 400 and 200 μA/μm can be obtained for an OFF-state current of 10^-10 A/μm, while maintaining gate and junction leakages compatible with low-power applications. Reliability and matching properties are aligned with logic gate-stacks, and the proposed solution is outperforming the La-cap-based solutions in terms of thermal stability.

Keywords

CMOS integrated circuits; DRAM chips; aluminium compounds; hafnium compounds; high-k dielectric thin films; integrated circuit reliability; ion implantation; low-power electronics; magnesium; thermal stability; titanium compounds; Al₂O₃; DRAM node; HfO₂; TiN-Mg-TiN; dynamic random access memory; high-k metal-gate; ion implantation; logic gate-stacks; low-power HKMG CMOS platform; metal inserted polysilicon stack; nMOS; pMOS devices; thermal stability; CMOS integrated circuits; Junctions; Logic gates; MOS devices; Random access memory; Tin; Transistors; As ion implantation (I/I); CMOS process integration; La capping layers; MOSFET fabrication; MOSFET fabrication.; Mg capping layers; dynamic random access memory (DRAM) periphery transistors; high- (k) metal gate (HKMG); high-k metal gate (HKMG);

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/TED.2014.2331371

Filename

6847699