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Beilstein J. Nanotechnol. 2017, 8, 2689–2710, doi:10.3762/bjnano.8.269
Figure 1: Voltage pulse on a Josephson junction corresponding to a SFQ transition and its mechanical analogy ...
Figure 2: Josephson transmission line. Josephson junctions are shown by crosses. Ib is the applied bias curre...
Figure 3: An RSFQ logic cell coupled to a clocking JTL. Ib is the applied bias current. Blue arrows present c...
Figure 4: RSFQ power supply scheme.
Figure 5: ERSFQ power supply scheme. Lb is the inductance limiting the bias current variation.
Figure 6: eSFQ power supply scheme. The dotted rectangle marks the decision-making pair.
Figure 7: Realization of a dc bias voltage source in RSFQ circuitry.
Figure 8: RQL ac power supply scheme. The blue arrow shows the SFQ current, violet arrows present magnetic co...
Figure 9: RQL transmission line with four-phase bias. Ib1,b2 are ac bias currents providing the power supply ...
Figure 10: Notional (left) and practical (right) schematic of a parametric quantron. The cell state is conditi...
Figure 11: Potential energy of a parametric quantron UPQ (Equation 2) (solid lines) and its terms: magnetic energy UM (d...
Figure 12: Logical state transfer in an array of magnetically coupled parametric quantrons under a driving cur...
Figure 13: nSQUID-based adiabatic data bus and RSFQ data bus. Blue arrows show circulating currents, orange ar...
Figure 14: Principal scheme of implementation of write and read operations in a circuit based on MJJ valve.
Figure 15: Cross section of an SF-NFS MJJ with CPRs of its parts shifted in phase by π. Arrows show F-layer ma...
Figure 16: Sketch of an orthogonal spin transfer (OST) device. Arrows show magnetization directions in the dev...