Friedrich Uhlmann scite author profile

The d-wave pairing symmetry in high-critical temperature superconductors makes it possible to realize superconducting rings with built-in pi phase shifts. Such rings have a twofold degenerate ground state that is characterized by the spontaneous generation of fractional magnetic flux quanta with either up or down polarity. We have incorporated pi phase-biased superconducting rings in a logic circuit, a flip-flop, in which the fractional flux polarity is controllably toggled by applying single flux quantum pulses at the input channel. The integration of p rings into conventional rapid single flux quantum logic as natural two-state devices should alleviate the need for bias current lines, improve device symmetry, and enhance the operation margins.

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SCENET roadmap for superconductor digital electronics

Brake

Buchholz

Burnell

et al. 2006

Physica C: Superconductivity

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Passive Phase Shifter for Superconducting Josephson Circuits

Balashov

Dimov

Khabipov

et al. 2007

IEEE Trans. Appl. Supercond.

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RSFQ Circuitry Using Intrinsic <formula formulatype="inline"> <tex>$\pi$</tex> </formula>-Phase Shifts

Ortlepp

Ariando

Mielke

et al. 2007

IEEE Trans. Appl. Supercond.

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The latching of temporary data is essential in the Rapid Single Flux Quantum (RSFQ) electronics family. Its pulse-driven nature requires two or more stable states in almost all cells. Storage loops must be designed to have exactly two stable states for binary data representation. In conventional RSFQ such loops are constructed to have two stable states, e.g. by using asymmetric bias currents. This bistability naturally occurs when phase-shifting elements are included in the circuitry, such as-Josephson junctions or a-phase shift associated with an unconventional (-wave) order parameter symmetry. Both approaches can be treated completely analogously, giving the same results. We have demonstrated for the first time the correct operation of a logic circuit, a toggle-flip-flop, using rings with an intrinsic-phase shift (-rings) based on hybrid high-to low-Josephson junctions. Because of their natural bistability these-rings improve the device symmetry, enhance operation margins and alleviate the need for bias current lines.

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