English

Distributing entanglement between distant semiconductor qubit registers using a shared-control shuttling link

Mesoscale and Nanoscale Physics 2026-01-07 v3

Abstract

Semiconductor quantum processors have potential to scale to modular quantum computers, in which qubit registers are coupled by quantum links, enabling high connectivity and space for control circuitry. Individual spin-qubit registers have progressed to two-dimensional systems and execution of small quantum algorithms. Separately, high-fidelity spin shuttling has been demonstrated in linear channels defined by individual gate electrodes. Here, we realize the first shared-control shuttling link integrated between distant qubit registers to demonstrate quantum entanglement in a basic modular quantum processor based on hole spin qubits in germanium. We develop a protocol to compensate for spin-orbit-induced rotations during qubit transfer, allowing for shuttling between qubit registers separated by more than one micrometer in approximately a hundred nanoseconds. Combining local qubit operation with coherent shuttling, we generate Bell states formed by spins residing in separate registers. Characterizing them using quantum state tomography, we demonstrate entanglement between spin qubits in distant registers.

Keywords

Cite

@article{arxiv.2510.26860,
  title  = {Distributing entanglement between distant semiconductor qubit registers using a shared-control shuttling link},
  author = {Zarije Ademi and Marion Bassi and Cécile X. Yu and Stefan D. Oosterhout and Yuta Matsumoto and Sander L. de Snoo and Amir Sammak and Lieven M. K. Vandersypen and Giordano Scappucci and Corentin Déprez and Menno Veldhorst},
  journal= {arXiv preprint arXiv:2510.26860},
  year   = {2026}
}

Comments

The authors Zarije Ademi and Marion Bassi contributed equally. The authors Corentin D\'eprez and Menno Veldhorst jointly supervised this work. Main text with 9 pages and 4 figures, supplementary materials with 22 pages and 14 figures, in a single file

R2 v1 2026-07-01T07:14:30.499Z