Advanced Fabrication Processes for Superconducting Very Large-Scale Integrated Circuits

Advanced Fabrication Processes for Superconducting Very Large-Scale Integrated Circuits

We review the salient features of two advanced nodes of an 8-Nb-layer fully planarized process developed recently at MIT Lincoln Laboratory for fabricating single flux quantum (SFQ) digital circuits with very large-scale integration on 200-mm wafers: the SFQ4ee and SFQ5ee nodes, where "ee"...

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Veröffentlicht in:IEEE transactions on applied superconductivity 2016-04, Vol.26 (3), p.1-10
Hauptverfasser: Tolpygo, Sergey K., Bolkhovsky, Vladimir, Weir, T. J., Wynn, Alex, Oates, D. E., Johnson, L. M., Gouker, M. A.
Format: Artikel
Sprache:eng
Schlagworte:
digital circuits
ERSFQ
Josephson junctions
kinetic inductance
MoNx
Nb/AlOx/Nb Josephson junctions
Niobium
Plasma etching
Resistors
RQL
RSFQ
SFQ
superconducting electronics
Superconducting integrated circuits
superconductor integrated circuits
Wires
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Zusammenfassung:We review the salient features of two advanced nodes of an 8-Nb-layer fully planarized process developed recently at MIT Lincoln Laboratory for fabricating single flux quantum (SFQ) digital circuits with very large-scale integration on 200-mm wafers: the SFQ4ee and SFQ5ee nodes, where "ee" denotes that the process is tuned for energy-efficient SFQ circuits. The former has eight superconducting layers with 0.5-μm minimum feature size and a 2-Ω/sq Mo layer for circuit resistors. The latter has nine superconducting layers: eight Nb wiring layers with the minimum feature size of 350 nm and a thin superconducting MoN x layer (T c ~ 7.5 K) with high kinetic inductance (about 8 pH/sq) for forming compact inductors. A nonsuperconducting (T c
ISSN:1051-8223
1558-2515
DOI:10.1109/TASC.2016.2519388