A newly developed current injection logic circuit is described. Input signal currents are directly injected into the inductor of a Josephson interferometer instead of being magnetically coupled to it. This circuit realizes excellent isolation characteristics between input and output signals. The additional offset-bias circuit increases the drivability and extends the operating margin. Experimental circuits forming cascade chains of 100 gates were fabricated using 10 µm-square lead-alloy Josephson junctions. The measured switching delay time was about 30 ps at a power dissipation of 15 µW.
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Yutaka HARADA, Hideaki NAKANE, Nobuo KOTERA, Mikio HIRANO, "Josephson Current Injection Interferometer Logic Circuit with Offset Bias" in IEICE TRANSACTIONS on transactions,
vol. E68-E, no. 4, pp. 215-218, April 1985, doi: .
Abstract: A newly developed current injection logic circuit is described. Input signal currents are directly injected into the inductor of a Josephson interferometer instead of being magnetically coupled to it. This circuit realizes excellent isolation characteristics between input and output signals. The additional offset-bias circuit increases the drivability and extends the operating margin. Experimental circuits forming cascade chains of 100 gates were fabricated using 10 µm-square lead-alloy Josephson junctions. The measured switching delay time was about 30 ps at a power dissipation of 15 µW.
URL: https://global.ieice.org/en_transactions/transactions/10.1587/e68-e_4_215/_p
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@ARTICLE{e68-e_4_215,
author={Yutaka HARADA, Hideaki NAKANE, Nobuo KOTERA, Mikio HIRANO, },
journal={IEICE TRANSACTIONS on transactions},
title={Josephson Current Injection Interferometer Logic Circuit with Offset Bias},
year={1985},
volume={E68-E},
number={4},
pages={215-218},
abstract={A newly developed current injection logic circuit is described. Input signal currents are directly injected into the inductor of a Josephson interferometer instead of being magnetically coupled to it. This circuit realizes excellent isolation characteristics between input and output signals. The additional offset-bias circuit increases the drivability and extends the operating margin. Experimental circuits forming cascade chains of 100 gates were fabricated using 10 µm-square lead-alloy Josephson junctions. The measured switching delay time was about 30 ps at a power dissipation of 15 µW.},
keywords={},
doi={},
ISSN={},
month={April},}
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TY - JOUR
TI - Josephson Current Injection Interferometer Logic Circuit with Offset Bias
T2 - IEICE TRANSACTIONS on transactions
SP - 215
EP - 218
AU - Yutaka HARADA
AU - Hideaki NAKANE
AU - Nobuo KOTERA
AU - Mikio HIRANO
PY - 1985
DO -
JO - IEICE TRANSACTIONS on transactions
SN -
VL - E68-E
IS - 4
JA - IEICE TRANSACTIONS on transactions
Y1 - April 1985
AB - A newly developed current injection logic circuit is described. Input signal currents are directly injected into the inductor of a Josephson interferometer instead of being magnetically coupled to it. This circuit realizes excellent isolation characteristics between input and output signals. The additional offset-bias circuit increases the drivability and extends the operating margin. Experimental circuits forming cascade chains of 100 gates were fabricated using 10 µm-square lead-alloy Josephson junctions. The measured switching delay time was about 30 ps at a power dissipation of 15 µW.
ER -