Growth of InGaAs-channel transistor layers on large-scale Si wafers for HeteroIntegration with Si CMOS

Author(s)

Nguyen, X.S.; Yadav, S.; Lee, K.H.; Kohen, D.; Kumar, A.; Made, R.I.; Gong, X.; Lee, K.E.; Tan, C.S.; Yoon, S.F.; Chua, S.J.; Fitzgerald, Eugene A; ... Show more Show less

Abstract

We report on the growth of In 0.30 Ga 0.70 As channel high-electron mobility transistor (HEMT) epi-layers on a 200 mm silicon wafer by metal organic chemical vapor deposition (MOCVD). The device epi-layers were grown on a silicon substrate by using a ∼ 3 μm thick buffer comprising a Ge layer, a GaAs layer and an InAlAs compositionally graded, strain relaxation layer. The achieved epitaxy has a threading dislocation density of (1 - 2) × 10[superscript 7] cm[superscript -2] and a root mean square surface roughness of 6-7 nm. The device active layers include a delta-doped InAlAs bottom barrier, a 15 nm thick InGaAs channel, a 15 nm InGaP top barrier layer and a heavily doped InGaAs contact layer. Long channel MOS-HEMT devices (LG ∼ 20 μm), were fabricated achieving a peak effective electron mobility of ∼ 3700 cm[superscript 2]/V·s.

Date issued

2017-05

URI

http://hdl.handle.net/1721.1/111840

Department

Massachusetts Institute of Technology. Department of Materials Science and Engineering

Journal

2017 International Conference on Compound Semiconductor Manufacturing Technology(2017 CS MANTECH Conference)

Publisher

CS Mantech

Citation

Nguyen, X.S. et al. "Growth of InGaAs-channel transistor layers on large-scale Si wafers for HeteroIntegration with Si CMOS." 2017 International Conference on Compound Semiconductor Manufacturing Technology(2017 CS MANTECH Conference), May 22-25 2017, Indian Wells, California, USA, CS Mantech, May 2017

Version: Author's final manuscript