Title :
Body-Tied Germanium FinFETs Directly on a Silicon Substrate
Author :
Chen, Che-Wei ; Chung, Cheng-Ting ; Luo, Guang-Li ; Chien, Chao-Hsin
Author_Institution :
Dept. of Electron. Eng., Nat. Chiao Tung Univ., Hsinchu, Taiwan
Abstract :
We fabricated body-tied Ge p-channel fin field-effect transistors (p-FinFETs) directly on a Si substrate with a high-κ/metal gate stack. This scheme is fully compatible with Si standard processing. The FinFET structure has excellent control on the channel potential and thus can improve the short-channel effect. The diode with p+-Ge/n-Si heterojunctions illustrates a remarkably high ION/IOFF >; 106 despite the presence of misfit dislocations at the interface. The high-hole-mobility body-tied Ge p-FinFETs with a fin width WFin of ~ 40 nm and a mask channel length LMask of 120 nm depict a driving current of 22 μA/μm at VG = -2V and a low off-current of 3 nA/μm at VG = 2V. The subthreshold characteristics with a swing of 228 mV/dec and drain-induced barrier lowering of 288 mV/V are demonstrated.
Keywords :
MOSFET; elemental semiconductors; germanium; high-k dielectric thin films; silicon; Ge; Si; body-tied p-channel fin field-effect transistors; channel potential; drain-induced barrier; high-hole-mobility p-FinFET; high-k-metal gate stack; short-channel effect; size 120 nm; subthreshold characteristics; voltage -2 V; voltage 2 V; Annealing; FinFETs; Germanium; Heterojunctions; Silicon; Substrates; Body-tied fin field-effect transistors (FinFETs); germanium; heterojunctions; high-mobility channel;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2012.2217473
