Your search keyword '"Sebaai, F."' showing total 2 results

1. First Demonstration of Vertically Stacked Gate-All-Around Highly Strained Germanium Nanowire pFETs.

Author

Capogreco, E., Witters, L., Arimura, H., Sebaai, F., Porret, C., Hikavyy, A., Loo, R., Milenin, A. P., Eneman, G., Favia, P., Bender, H., Wostyn, K., Dentoni Litta, E., Schulze, A., Vrancken, C., Opdebeeck, A., Mitard, J., Langer, R., Holsteyns, F., and Waldron, N.

Subjects

BUFFER solutions, ELECTRIC conductivity, TEMPERATURE, RELIABILITY in engineering, FABRICATION (Manufacturing)

Abstract

This paper reports on 45-nm fin pitch strained p-type Ge gate-all-around devices fabricated on 300-mm SiGe strain-relaxed-buffers (SRB). By improving the process integration flow, excellent electrical performance is demonstrated: the $Q$ factor is increased to 25 as compared to our previous work, $I_{ \mathrm{\scriptscriptstyle ON}} = \textsf {500}~\mu \text{A}/ \mu \text{m}$ at $I_{ \mathrm{\scriptscriptstyle OFF}} = \textsf {100}$ nA/ $\mu \text{m}$ is achieved, approaching the best published results on Ge finFETs. Good negative-bias temperature instability reliability is also maintained, thanks to the use of Si-cap passivation. The process flow developed for the fabrication of the single Ge nanowire (NW) is adapted and vertically stacked strained Ge NWs featuring 8-nm channel diameter are successfully demonstrated. A systematic analysis of the strain evolution is conducted on both single and double Ge NWs after the most challenging steps of the process integration flow: 1.7-GPa uniaxial-stress is demonstrated along the Ge wire, which originates from the lattice mismatch between the Ge source/drain and the Si0.3Ge0.7 SRB. [ABSTRACT FROM AUTHOR]

Published

2018

2. Strained Germanium Gate-All-Around pMOS Device Demonstration Using Selective Wire Release Etch Prior to Replacement Metal Gate Deposition.

Author

Witters, L., Arimura, H., Sebaai, F., Hikavyy, A., Milenin, A. P., Loo, R., De Keersgieter, A., Eneman, G., Schram, T., Wostyn, K., Devriendt, K., Schulze, A., Lieten, R., Bilodeau, S., Cooper, E., Storck, P., Chiu, E., Vrancken, C., Favia, P., and Vancoille, E.

Subjects

METAL oxide semiconductors, GERMANIUM, SILICON germanium integrated circuits, LOGIC circuits, SEMICONDUCTOR wafers, HYDROGEN

Abstract

Strained Ge p-channel gate-all-around (GAA) devices with Si-passivation are demonstrated on high-density 45-nm active pitch starting from 300-mm SiGe strain relaxed buffer wafers. While single horizontal Ge nanowire (NW) devices are demonstrated, the process flow described in this paper can be adjusted to make vertically stacked horizontal Ge NWs to increase the drive per footprint. The demonstrated short-channel devices have round Ge NWs with 9-nm diameter and are the Ge GAA devices with the smallest channel and gate dimensions (LG = 40 nm) published to date. Electrostatics and off-state leakage are maintained down to the shortest gate lengths studied, showing drain-induced barrier lowering of 30 mV/V and sub20 nA/μm Ioff at VDD = -0.5 V and LG = 40 nm. The short-channel device subthreshold slope SS and performance can be further improved by use of high-pressure annealing in hydrogen, yielding the best SSLIN and SSSAT of 71 and 76 mV/dec reported so far for any LG = 40-nm Ge pMOS channel device. [ABSTRACT FROM PUBLISHER]

Published

2017