Riken Researchers Demonstrated a Triple-Qubit, Silicon-Based Quantum Computing Mechanism.
(TechRadar) Researchers at Japan’s Riken Center for Emergent Matter Science have achieved a major step forward in increasing the scalability of quantum computers.
Instead of simply incrementing the total qubits in a system, the researchers have demonstrated a triple-qubit, silicon-based quantum computing mechanism.
Qubits, the quantum equivalent of the traditional computing bits, were previously only shown to work in entangled pairs. The new researcher however demonstrates that entanglement can actually be done with three qubits.
“Two-qubit operation is good enough to perform fundamental logical calculations. But a three-qubit system is the minimum unit for scaling up and implementing error correction,” notes Seigo Tarucha, who led the team of Riken researchers.
Thanks to Riken’s researchers the maximum number of cores in a quantum computer has now been bumped from two cores to three, which theoretically paves way for building multiple triple-core quantum computing subdivisions, instead of dual-core ones.
Of course, the work is still in its early stages, but Tarucha has plans to extend the research to pave the way for “a large-scale quantum computer within a decade.”