SOI CMOS technology for quantum information processing: A path towards quantum bits and control electronics co-integration
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| Date | |
| Authors | Hutin L., Bertrand B., Maurand R., Urdampilleta M., Jadot B., Bohuslavskyi H., Bourdet L., Niquet Y.-M., Jehl X., Barraud S., Bauerle C., Meunier T., Sanquer M., De Franceschi S., Vinet M. |
| Year | 2017-0359 |
| Source-Title | 2017 IEEE International Conference on IC Design and Technology, ICICDT 2017 |
| Affiliations | CEA-Leti, Minatec Campus, Grenoble, France, CEA INAC-PHELIQS, Grenoble, France, CNRS - Institut Neel, Grenoble, France |
| Abstract | We present some recent progress towards the implementation of semiconductor spin quantum bits derived from a Si CMOS technology platform. Our approach consists in developing a foundry-compatible embodiment of the basic building block of quantum information, with a strong potential for large scale co-integration of a quantum core with its mandatory classical control and readout electronics. After introducing various qubit manipulation, coupling and readout schemes, we discuss some prospects for scalability, and in particular some potential advantages of the FDSOI technology. © 2017 IEEE. |
| Author-Keywords | CMOS, Quantum computing, Silicon, SOI, Spin qubit |
| Index-Keywords | CMOS integrated circuits, Quantum computers, Semiconducting silicon, Silicon, Basic building block, Classical control, Control electronics, Of quantum-information, Quantum Computing, Quantum-information processing, Readout Electronics, Spin qubit, Quantum optics |
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| Link | Link |