Baek, B., Rippard, W. H., Benz, S. P., Russek, S. E. & Dresselhaus, P. D. Hybrid superconducting-magnetic reminiscence gadget utilizing competing order parameters. Nat. Commun. 5, 3888 (2014).
Gingrich, E. C. et al. Controllable 0–π Josephson junctions containing a ferromagnetic spin valve. Nat. Phys. 12, 564–567 (2016).
Sardashti, Okay. et al. Voltage-tunable superconducting resonators: a platform for random entry quantum reminiscence. IEEE Trans. Quantum Eng. 1, 1–7 (2020).
Alam, S., Hossain, M. S., Srinivasa, S. R. & Aziz, A. Cryogenic reminiscence applied sciences. Preprint at https://arxiv.org/abs/2111.09436 (2021).
Doh, Y.-J. et al. Tunable supercurrent by semiconductor nanowires. Science 309, 272–275 (2005).
De Simoni, G., Paolucci, F., Solinas, P., Strambini, E. & Giazotto, F. Metallic supercurrent field-effect transistor. Nat. Nanotechnol. 13, 802–805 (2018).
Fatemi, V. et al. Electrically tunable low-density superconductivity in a monolayer topological insulator. Science 362, 926–929 (2018).
Larsen, T. W. et al. Semiconductor-nanowire-based superconducting qubit. Phys. Rev. Lett. 115, 127001 (2015).
de Lange, G. et al. Realization of microwave quantum circuits utilizing hybrid superconducting-semiconducting nanowire Josephson components. Phys. Rev. Lett. 115, 127002 (2015).
Wang, J. I.-J. et al. Coherent management of a hybrid superconducting circuit made with graphene-based van der Waals heterostructures. Nat. Nanotechnol. 14, 120–125 (2019).
Zheng, Z. et al. Unconventional ferroelectricity in moiré heterostructures. Nature 588, 71–76 (2020).
Niu, R. et al. Large ferroelectric polarization in a bilayer graphene heterostructure. Nat. Commun. 13, 6421 (2022).
Suárez Morell, E., Correa, J. D., Vargas, P., Pacheco, M. & Barticevic, Z. Flat bands in barely twisted bilayer graphene: tight-binding calculations. Phys. Rev. B 82, 121407(R) (2010).
Bistritzer, R. & MacDonald, A. H. Moiré bands in twisted double-layer graphene. Proc. Natl Acad. Sci. USA 108, 12233–12237 (2011).
Lopes dos Santos, J. M. B., Peres, N. M. R. & Castro Neto, A. H. Continuum mannequin of the twisted graphene bilayer. Phys. Rev. B 86, 155449 (2012).
Li, G. et al. Remark of Van Hove singularities in twisted graphene layers. Nat. Phys. 6, 109–113 (2010).
Luican, A. et al. Single-layer conduct and its breakdown in twisted graphene layers. Phys. Rev. Lett. 106, 126802 (2011).
Cao, Y. et al. Unconventional superconductivity in magic-angle graphene superlattices. Nature 556, 43–50 (2018).
Cao, Y. et al. Correlated insulator behaviour at half-filling in magic-angle graphene superlattices. Nature 556, 80–84 (2018).
Sharpe, A. L. et al. Emergent ferromagnetism close to three-quarters filling in twisted bilayer graphene. Science 365, 605–608 (2019).
Serlin, M. et al. Intrinsic quantized anomalous Corridor impact in a moiré heterostructure. Science 367, 900–903 (2020).
Cao, Y. et al. Unusual metallic in magic-angle graphene with close to Planckian dissipation. Phys. Rev. Lett. 124, 076801 (2020).
Yasuda, Okay., Wang, X., Watanabe, Okay., Taniguchi, T. & Jarillo-Herrero, P. Stacking-engineered ferroelectricity in bilayer boron nitride. Science 372, 1458–1462 (2021).
Vizner Stern, M. et al. Interfacial ferroelectricity by van der Waals sliding. Science 372, 1462–1466 (2021).
Caviglia, A. D. et al. Electrical area management of the LaAlO3/SrTiO3 interface floor state. Nature 456, 624–627 (2008).
Ueno, Okay. et al. Electrical-field-induced superconductivity in an insulator. Nat. Mater. 7, 855–858 (2008).
Ye, J. T. et al. Superconducting dome in a gate-tuned band insulator. Science 338, 1193–1196 (2012).
Fausti, D. et al. Mild-induced superconductivity in a stripe-ordered cuprate. Science 331, 189–191 (2011).
Yang, M., Yan, C., Ma, Y., Li, L. & Cen, C. Mild induced non-volatile switching of superconductivity in single layer FeSe on SrTiO3 substrate. Nat. Commun. 10, 85 (2019).
Taniguchi, H., Kanoda, Okay. & Kawamoto, A. Subject switching of superconductor-insulator bistability in artificially tuned organics. Phys. Rev. B 67, 014510 (2003).
Ahn, C. H. et al. Electrostatic modulation of superconductivity in ultrathin GdBa2Cu3O7−x movies. Science 284, 1152–1155 (1999).
Takahashi, T. S. et al. Native switching of two-dimensional superconductivity utilizing the ferroelectric area impact. Nature 441, 195–198 (2006).
Rodan-Legrain, D. et al. Extremely tunable junctions and non-local Josephson impact in magic-angle graphene tunnelling gadgets. Nat. Nanotechnol. 16, 769–775 (2021).
de Vries, F. Okay. et al. Gate-defined Josephson junctions in magic-angle twisted bilayer graphene. Nat. Nanotechnol. 16, 760–763 (2021).
Diez-Merida, J. et al. Magnetic Josephson junctions and superconducting diodes in magic angle twisted bilayer graphene. Preprint at https://arxiv.org/abs/2110.01067 (2021).
Portolés, E. et al. A tunable monolithic SQUID in twisted bilayer graphene. Nat. Nanotechnol. 17, 1159–1164 (2022).
Park, J. M., Cao, Y., Watanabe, Okay., Taniguchi, T. & Jarillo-Herrero, P. Flavour Hund’s coupling, Chern gaps and cost diffusivity in moiré graphene. Nature 592, 43–48 (2021).
