Advanced Cuprate Josephson Architectures: Twistronics, Electrodynamics, and Macroscopic Quantum Effects – QTlab Unina

Superconducting Cuprate Twistronics

Cuprate Twistronics for Quantum Hardware.
Confalone, T., et al., Advanced Quantum Technologies (2025): 2500203.

Challenges in the electrical engineering of cuprate twistronics.
Confalone, T., et al. Nature Reviews Electrical Engineering 2.2 (2025): 73-74.

Time-reversal symmetry breaking superconductivity between twisted cuprate superconductors.
Zhao, S. F., et al., Science 382.6677 (2023): 1422-1427.

Twisted cuprate van der Waals heterostructures with controlled Josephson coupling.
Martini, M., et al., Materials Today 67 (2023): 106-112.

Encapsulating High‐Temperature Superconducting Twisted van der Waals Heterostructures Blocks Detrimental Effects of Disorder.
Lee, Y., et al., Advanced Materials 35.15 (2023): 2209135.

Spatially correlated incommensurate lattice modulations in an atomically thin high-temperature Bi 2.1 Sr 1.9 Ca Cu 2.0 O 8+ y superconductor.
Poccia, N., et al., Physical Review Materials 4.11 (2020): 114007.

Sign-reversing Hall effect in atomically thin high-temperature Bi 2.1 Sr 1.9 CaCu 2.0 O 8+ δ superconductors.
Zhao, S. F., et al., Physical review letters 122.24 (2019): 247001.

QTlab Unina

Pages

Education and Open position

Contact

infoqtlab@unina.it