A kinetic uncertainty relation is analytically derived for many-body collective dissipation, revealing that collective interactions enable precision to scale with particle number N.
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Orthogonal FDM with rectangular pulses suppresses interference to enable high-fidelity simultaneous gates on multiple qubits via a single microwave line.
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Kinetic Uncertainty Relation in Collective Dissipative Quantum Many-Body Systems
A kinetic uncertainty relation is analytically derived for many-body collective dissipation, revealing that collective interactions enable precision to scale with particle number N.
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Orthogonal frequency-division multiplexing for simultaneous gate operations on multiple qubits via a shared control line
Orthogonal FDM with rectangular pulses suppresses interference to enable high-fidelity simultaneous gates on multiple qubits via a single microwave line.