TY - JOUR
T1 - Magnetic-field-free nonreciprocal transport in graphene multiterminal Josephson junctions
AU - Zhang, Fan
AU - Rashid, Asmaul Smitha
AU - Tanhayi Ahari, Mostafa
AU - De Coster, George J.
AU - Taniguchi, Takashi
AU - Watanabe, Kenji
AU - Gilbert, Matthew J.
AU - Samarth, Nitin
AU - Kayyalha, Morteza
N1 - Publisher Copyright:
© 2024 American Physical Society. US.
PY - 2024/3
Y1 - 2024/3
N2 - Nonreciprocal superconducting devices have attracted growing interest in recent years as they potentially enable directional charge transport for applications in superconducting quantum circuits. Specifically, the superconducting diode effect has been explored in two-terminal devices that exhibit superconducting transport in one current direction while showing dissipative transport in the opposite direction. Here, we exploit multiterminal Josephson junctions (MTJJs) to engineer magnetic-field-free nonreciprocity in multiport networks. We show that when treated as a two-port electrical network, a three-terminal Josephson junction (JJ) with an asymmetric graphene region exhibits reconfigurable two-port nonreciprocity. We observe nonreciprocal (reciprocal) transport between superconducting terminals with broken (preserved) spatial mirror symmetry. We explain our observations by considering a circuit network of JJs with different critical currents.
AB - Nonreciprocal superconducting devices have attracted growing interest in recent years as they potentially enable directional charge transport for applications in superconducting quantum circuits. Specifically, the superconducting diode effect has been explored in two-terminal devices that exhibit superconducting transport in one current direction while showing dissipative transport in the opposite direction. Here, we exploit multiterminal Josephson junctions (MTJJs) to engineer magnetic-field-free nonreciprocity in multiport networks. We show that when treated as a two-port electrical network, a three-terminal Josephson junction (JJ) with an asymmetric graphene region exhibits reconfigurable two-port nonreciprocity. We observe nonreciprocal (reciprocal) transport between superconducting terminals with broken (preserved) spatial mirror symmetry. We explain our observations by considering a circuit network of JJs with different critical currents.
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U2 - 10.1103/PhysRevApplied.21.034011
DO - 10.1103/PhysRevApplied.21.034011
M3 - Article
AN - SCOPUS:85187541315
SN - 2331-7019
VL - 21
JO - Physical Review Applied
JF - Physical Review Applied
IS - 3
M1 - 034011
ER -