Integrated GermaNIum quanTum tEchnology

HORIZON.2.4HORIZON-RIAID: 101069515
EC Contribution
€49,968
Consortium Size
9 orgs
Summary

Spin qubits in germanium have resulted in the most advanced semiconductor quantum processor. Within five years of development, germanium qubits are established as a highly promising candidate for large-scale quantum computing. Germanium is a standard semiconductor manufacturing material and germanium qubits are the only semiconductor qubits that are defined exclusively by transistor-based structures and has enabled to demonstrate a universal quantum gate set [Hen20]. This is highly promising for scalability and adoption by leading semiconductor technology. A revolution in the growth of strained germanium sparked a remarkable development which led to the first germanium quantum dot, germanium qubit, two-qubit logic in germanium, four-qubit logic in a two-dimensional array, and operation of a 16 quantum dot array. This program brings together all the partners that enabled these developments to form a consortium with leading scientists and industry, to fulfil the promise of germanium quantum technology, by scaling the number of qubits, by designing architectures allowing to advance beyond 1000s of qubits, and by experimentally implementing a computational task that can provide a quantum advantage. The key objective of Integrated Germanium Quantum Technology (IGNITE) is thus to demonstrate that germanium defines a compelling platform for quantum computation with excellent qubits operating in a scalable network. We therefore focus on four key components to demonstrate its success:

Consortium (9)

Project Results (31)

Source: CORDIS, the EU research results database.

Publications (21)
A crossbar chip for benchmarking semiconductor spin qubits
Nature Electronics· 2026DOI
Alberto Tosato, Asser Elsayed, Federico Poggiali, Lucas Erik Adriaan Stehouwer, Davide Costa, Karina Louise Hudson, Davide Degli Esposti, Giordano Scappucci
"Crosstalk analysis in single hole-spin qubits within highly anisotropic <mml:math xmlns:mml=""http://www.w3.org/1998/Math/MathML""><mml:mi>g</mml:mi></mml:math> -tensors"
Physical Review Research· 2025DOI
Yaser Hajati; Irina Heinz; Guido Burkard
A quantum dot in germanium proximitized by a superconductor
Nature Materials· 2025DOI
Lazar Lakic; William I. L. Lawrie; David van Driel; Lucas E. A. Stehouwer; Yao Su; Menno Veldhorst; Giordano Scappucci; Ferdinand Kuemmeth; Anasua Chatterjee
Autonomous bootstrapping of quantum dot devices
Physical Review Applied· 2025DOI
Anton Zubchenko; Danielle Middlebrooks; Torbjørn Rasmussen; Lara Lausen; Ferdinand Kuemmeth; Anasua Chatterjee; Justyna P. Zwolak
Codebase release 1.1 for QDsim
SciPost Physics Codebases· 2025DOI
Valentina Gualtieri; Charles Renshaw-Whitman; Vinicius Hernandes; Eliska Greplova
Engineering Ge Profiles in Si/SiGe Heterostructures for Increased Valley Splitting
Nano Letters· 2025DOI
Lucas E. A. Stehouwer, Merrit P. Losert, Maia Rigot, Davide Degli Esposti, Sara Martí-Sánchez, Maximillian Rimbach-Russ, Jordi Arbiol, Mark Friesen, Giordano Scappucci
Exploiting strained epitaxial germanium for scaling low-noise spin qubits at the micrometre scale
Nature Materials· 2025DOI
Lucas E. A. Stehouwer; Cécile X. Yu; Barnaby van Straaten; Alberto Tosato; Valentin John; Davide Degli Esposti; Asser Elsayed; Davide Costa; Stefan D. Oosterhout; Nico W. Hendrickx; Menno Veldhorst; Francesco Borsoi; Giordano Scappucci
Physical Review X
Physical Review X· 2025DOI
Anantha S. Rao; Donovan Buterakos; Barnaby van Straaten; Valentin John; Cécile X. Yu; Stefan D. Oosterhout; Lucas Stehouwer; Giordano Scappucci; Menno Veldhorst; Francesco Borsoi; Justyna P. Zwolak
QDsim: A user-friendly toolbox for simulating large-scale quantum dot devices
SciPost Physics Codebases· 2025DOI
Valentina Gualtieri; Charles Renshaw-Whitman; Vinicius Hernandes; Eliska Greplova
Bichromatic Rabi Control of Semiconductor Qubits
Physical Review Letters· 2024DOI
György, Chien-An Wang, Gábor Széchenyi, Floor van Riggelen-Doelman, William I. L. Lawrie, Nico W. Hendrickx, Amir Sammak, Giordano Scappucci, András Pályi, and Menno Veldhorst.
Coherent spin qubit shuttling through germanium quantum dots
Nature Communications· 2024DOI
Floor van Riggelen-Doelman, Chien-An Wang, Sander L. de Snoo, William I. L. Lawrie, Nico W. Hendrickx, Maximilian Rimbach-Russ, Amir Sammak, Giordano Scappucci, Corentin Déprez, Menno Veldhorst
Compressively Strained Epitaxial Ge Layers for Quantum Computing Applications
ScienceDirect· 2024DOI
Yosuke Shimura; Clement Godfrin; Andriy Hikavyy; Roy Li; Juan Aguilera; Georgios Katsaros; Paola Favia; Han Han; Danny Wan; Kristiaan De Greve; Roger Loo
Dynamic sweet spot of driven flopping-mode spin qubits in planar quantum dots
Physical Review B· 2024DOI
Yaser Hajati; Guido Burkard
Materials Science in Semiconductor Processing
Materials Science in Semiconductor Processing· 2024DOI
Shimura, Yosuke; Godfrin, Clement; Hikavyy, Andriy; Li, Roy; Aguilera, Juan; Katsaros, Georgios; Favia, Paola; Han, Han; Wan, Danny; De Greve, Kristiaan; Loo, Roger
Parity-conserving Cooper-pair transport and ideal superconducting diode in planar germanium
Nature Communications· 2024DOI
Menno Veldhorst, Andreas Pijpker, Francesco Borsoi, Zoltán György, D. Lane Smith, William I. L. Lawrie, Matteo Biondi, Nikolai A. Ziko, Amir Sammak, Giordano Scappucci
Protocols to measure the non-Abelian Berry phase by pumping a spin qubit through a quantum-dot loop
Physical Review B· 2024DOI
Baksa Kolok and András Pályi
Protocols to measure the non-Abelian Berry phase by pumping a spin qubit through a quantum-dot loop
Physical Review B· 2024DOI
Kolok, Baksa; Pályi, András
Science
Science· 2024DOI
Chien-An Wang; Valentin John; Hanifa Tidjani; Cécile X. Yu; Alexander S. Ivlev; Corentin Déprez; Floor van Riggelen-Doelman; Benjamin D. Woods; Nico W. Hendrickx; William I. L. Lawrie; Lucas E. A. Stehouwer; Stefan D. Oosterhout; Amir Sammak; Mark Friesen; Giordano Scappucci; Sander L. de Snoo; Maximilian Rimbach-Russ; Francesco Borsoi; Menno Veldhorst
Classification and magic magnetic field directions for spin-orbit-coupled double quantum dots
PHYSICAL REVIEW B· 2023DOI
Valentin John, Francesco Borsoi, Nico W. Hendrickx, Giordano Scappucci, András Pályi, and Menno Veldhorst.
Electrically driven spin resonance with bichromatic driving
Physical Review B· 2022DOI
György, Zoltán; Pályi, András; Széchenyi, Gábor
Electrically driven spin resonance with bichromatic driving
Physical Review B· 2022DOI
https://doi.org/10.1103/PhysRevB.106.155412
Deliverables (9)
Other Results (1)
Periodic Reporting for period 1 - IGNITE (Integrated GermaNIum quanTum tEchnology)