Journal
NANOTECHNOLOGY
Volume 33, Issue 7, Pages -Publisher
IOP Publishing Ltd
DOI: 10.1088/1361-6528/ac3689
Keywords
GaSb; vertical nanowire; p-type MOSFET; performance enhancement; RTA
Funding
- Swedish Research Council (VR)
- Swedish Foundation for Strategic Research (SSF)
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This study demonstrates that the performance of GaSb-based devices can be improved through rapid thermal annealing, making them suitable for low-power logic applications and RF applications.
GaSb is considered as an attractive p-type channel material for future III-V metal-oxide-semiconductor (MOS) technologies, but the processing conditions to utilize the full device potential such as low power logic applications and RF applications still need attention. In this work, applying rapid thermal annealing (RTA) to nanoscale GaSb vertical nanowire p-type MOS field-effect transistors, we have improved the average peak transconductance (g (m,peak)) by 50% among 28 devices and achieved 70 mu S mu m(-1) at V (DS) = -0.5 V in a device with 200 nm gate length. In addition, a low subthreshold swing down to 144 mV dec(-1) as well as an off-current below 5 nA mu m(-1) which refers to the off-current specification in low-operation-power condition has been obtained. Based on the statistical analysis, the results show a great enhancement in both on- and off-state performance with respect to previous work mainly due to the improved electrostatics and contacts after RTA, leading to a potential in low-power logic applications. We have also examined a short channel device with L (g) = 80 nm in RTA, which shows an increased g (m,peak) up to 149 mu S mu m(-1) at V (DS) = -0.5 V as well as a low on-resistance of 4.7 k omega center dot mu m. The potential of further enhancement in g (m) via RTA offers a good alternative to obtain high-performance devices for RF applications which have less stringent requirement for off-state performance. Our results indicate that post-fabrication annealing provides a great option to improve the performance of GaSb-based p-type devices with different structures for various applications.
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