A superconducting quantum router enables programmable multi-qubit entangling operations, demonstrated with faster preparation of entangled states and RL-trained 2- and 3-qubit gates like Toffoli and Fredkin.
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Algorithms construct stabilizer models for boundaries and 0D defects in composite-dimensional twisted quantum double codes, with examples like Z4 double coupled to double semion phase and threshold comparisons to surface codes.
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Efficient $n$-qubit entangling operations via a superconducting quantum router
A superconducting quantum router enables programmable multi-qubit entangling operations, demonstrated with faster preparation of entangled states and RL-trained 2- and 3-qubit gates like Toffoli and Fredkin.
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Composite-Dimensional Topological Codes with Boundaries and Defects
Algorithms construct stabilizer models for boundaries and 0D defects in composite-dimensional twisted quantum double codes, with examples like Z4 double coupled to double semion phase and threshold comparisons to surface codes.