AtomTreeSearch embeds a neutral-atom quantum MWIS subroutine inside Monte Carlo Tree Search and matches or exceeds OR-Tools and simulated annealing on TSP instances up to 100 cities.
QuTiP 2: A Python framework for the dynamics of open quantum systems
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The Pauli principle and nuclear spin isomers of ammonia molecules significantly reshape collective light-matter coupling in infrared cavities, demonstrated via numerical simulations for two molecules and an analytical model for ensembles.
SPICE-Q is a proposed unified data-chain framework for co-optimizing process, layout, electromagnetic simulation, circuit quantization, noise, and yield in superconducting quantum processors.
A time-bin multiplexing protocol generates parallel multipartite entanglement among N quantum nodes using a photon whose time-bin dimension stays independent of N.
A TLS defect in a transmon tunnel barrier strongly couples to the readout resonator, dressing its states and shifting frequency to spoil readout.
A hybrid optimal-control-plus-contextual-RL framework learns low-dimensional residual pulse corrections that preserve high-fidelity controlled-phase gates on two qutrits under realistic static model mismatch.
Incoherent qubit pumping combined with dispersive magnon-number selectivity stabilizes Wigner-negative magnon Fock states, with an analytical birth-death model matching numerics.
Compares Lindblad, stochastic Schrödinger, and non-Hermitian methods for dissipative Na2-cavity dynamics and shows rotational nonadiabatic effects.
A review summarizing superconducting qubit types, DiVincenzo criteria implementations, coherence limits from defects, and large-scale integration strategies for quantum computing.
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Review of Superconducting Qubit Devices and Their Large-Scale Integration
A review summarizing superconducting qubit types, DiVincenzo criteria implementations, coherence limits from defects, and large-scale integration strategies for quantum computing.