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Heterogeneous integration of spin-photon interfaces with a CMOS platform.
Li, Linsen; Santis, Lorenzo De; Harris, Isaac B W; Chen, Kevin C; Gao, Yihuai; Christen, Ian; Choi, Hyeongrak; Trusheim, Matthew; Song, Yixuan; Errando-Herranz, Carlos; Du, Jiahui; Hu, Yong; Clark, Genevieve; Ibrahim, Mohamed I; Gilbert, Gerald; Han, Ruonan; Englund, Dirk.
Affiliation
  • Li L; Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, MA, USA. linsenli@mit.edu.
  • Santis L; Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, MA, USA. linsenli@mit.edu.
  • Harris IBW; Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, MA, USA.
  • Chen KC; QuTech, Delft University of Technology, Delft, Netherlands.
  • Gao Y; Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, MA, USA.
  • Christen I; Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, MA, USA.
  • Choi H; Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, MA, USA.
  • Trusheim M; Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, MA, USA.
  • Song Y; Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, MA, USA.
  • Errando-Herranz C; Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, MA, USA.
  • Du J; Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, MA, USA.
  • Hu Y; Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, MA, USA.
  • Clark G; Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, MA, USA.
  • Ibrahim MI; Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, MA, USA.
  • Gilbert G; Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, MA, USA.
  • Han R; DEVCOM, Army Research Laboratory, Adelphi, MD, USA.
  • Englund D; Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, MA, USA.
Nature ; 630(8015): 70-76, 2024 Jun.
Article in En | MEDLINE | ID: mdl-38811730
ABSTRACT
Colour centres in diamond have emerged as a leading solid-state platform for advancing quantum technologies, satisfying the DiVincenzo criteria1 and recently achieving quantum advantage in secret key distribution2. Blueprint studies3-5 indicate that general-purpose quantum computing using local quantum communication networks will require millions of physical qubits to encode thousands of logical qubits, presenting an open scalability challenge. Here we introduce a modular quantum system-on-chip (QSoC) architecture that integrates thousands of individually addressable tin-vacancy spin qubits in two-dimensional arrays of quantum microchiplets into an application-specific integrated circuit designed for cryogenic control. We demonstrate crucial fabrication steps and architectural subcomponents, including QSoC transfer by means of a 'lock-and-release' method for large-scale heterogeneous integration, high-throughput spin-qubit calibration and spectral tuning, and efficient spin state preparation and measurement. This QSoC architecture supports full connectivity for quantum memory arrays by spectral tuning across spin-photon frequency channels. Design studies building on these measurements indicate further scaling potential by means of increased qubit density, larger QSoC active regions and optical networking across QSoC modules.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: Nature Year: 2024 Type: Article Affiliation country: United States
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Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: Nature Year: 2024 Type: Article Affiliation country: United States