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Design Considerations and Quantum Confinement Effect in Monolithic ε-Ge/InxGa1-xAs Nanoscale FinFETs Down to N5 Node

In this work, we have studied the effect of material parameters (indium (In) composition and doping), geometrical parameters [channel length {L} , fin width {W} , aspect ratio (AR)], and quantum confinement (QC) on the performance and operability of a \varepsilon -Ge /InxGa _{{1}-{x}} As hybrid C...

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Bibliographic Details
Published in:IEEE transactions on electron devices 2022-12, Vol.69 (12), p.6616-6623
Main Authors: Joshi, Rutwik, Karthikeyan, Sengunthar, Hudait, Mantu K.
Format: Article
Language:English
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Summary:In this work, we have studied the effect of material parameters (indium (In) composition and doping), geometrical parameters [channel length {L} , fin width {W} , aspect ratio (AR)], and quantum confinement (QC) on the performance and operability of a \varepsilon -Ge /InxGa _{{1}-{x}} As hybrid CMOS system. In this system, the In compositional InxGa _{{1}-{x}} As and tensile-strained Ge ( \varepsilon -Ge) grown on the InxGa _{{1}-{x}} As layer were used as n- and p-channel FinFETs, respectively. The In composition in InxGa _{{1}-{x}} As layer (lattice matched with graded InxAl _{{1}-{x}} As buffer) determines the amount of tensile strain in Ge. This hybrid system utilizes the benefits of metamorphic (InxGa _{{1}-{x}} As/InxAl _{{1}-{x}} As) as well as pseudomorphic ( \varepsilon -Ge/InxGa _{{1}-{x}} As) heteroepitaxy to create high-performance tunable complementary devices, suitable for 0.5 V CMOS operation. The device metrics such as, threshold voltage, ON-current ( {I}_{\text {on}} ), OFF-current ( {I}_{\text {off}} ), subthreshold-swing (SS), and drain-induced barrier lowering (DIBL), and their dependence on material and geometrical parameters were evaluated using self-consistent analytical solvers scaled down to the N5 node. At these scaled dimensions, this hybrid system demonstrated ultralow leakage current and SS for the n-FinFET and p-FinFET of 10 pA/ \mu \tex
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2022.3212337