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Silicon quantum dots are attractive candidates for the development of scalable, spin‐based qubits. Pauli spin blockade in double quantum dots provides an efficient, temperature independent mechanism for qubit readout. Here, we report on transport experiments in double gate nanowire transistors issued from a complementary metal–oxide–semiconductor (CMOS) process on 300 mm silicon‐on‐insulator wafers...
We report the fabrication of, and demonstrate logic functionality in, networks of magnetically-coupled, nanometer-scale magnets performing binary computation in a magnetic quantum-dot cellular automata (MQCA) system. MQCA is an all-magnetic logic that offers low power dissipation and high integration density of functional elements.
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