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A CMOS silicon spin qubit
R. Maurand
, X. Jehl
, D. Kotekar-Patil
, Andrea Corna
,
Heorhii Bohuslavskyi
, R. Laviéville
, L. Hutin
, S. Barraud
, M. Vinet
, M. Sanquer
, S. De Franceschi
Not published at VTT
Grenoble Alpes University
Institute for Nanoscience and Cryogenics (INAC)
Laboratoire d'électronique des technologies de l'information (LETI)
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silicon
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spin
100%
quantum bits
100%
devices
42%
control
28%
transistors
28%
quantum dots
28%
geometry
14%
low temperature
14%
industry
14%
modulation
14%
holes
14%
fabrication
14%
microwave radiation
14%
readout systems
14%
assets
14%
computer architecture
14%
microprocessors
14%
quantum computing
14%
Keyphrases
Complementary Metal Oxide Semiconductor
100%
Quantum Bit
100%
Transistor
28%
Quantum Dots
28%
Low Temperature
14%
P-type
14%
Fabrication Methods
14%
Industry Standards
14%
Two-axis
14%
Undoped
14%
Hole Spin
14%
Control Hardware
14%
Microprocessor chips
14%
Quantum Processor
14%
Scalable Quantum Computing
14%
Cointegration
14%
Microwave Modulation
14%
Classical Control
14%
Phase Tunable
14%
Quantum Architecture
14%
All-electrical
14%
Engineering
Quantum Dot
100%
Low-Temperature
50%
Main Constituent
50%
Microprocessor Chips
50%
Realization
50%
Industry Standard
50%
Classical Control
50%
Quantum Computation
50%
Material Science
Silicon
100%
Transistor
66%
Quantum Dot
66%
Physics
Quantum Dot
100%
Quantum Computing
11%