ON THE COVER
May 2, 2024
High-fidelity two-qubit gates are achieved with heavy-fluxonium qubits, circuits that break many conventional superconducting circuit paradigms, bringing more diversity for quantum applications.
Helin Zhanget al.
PRX Quantum5,020326 (2024)
ROADMAP
Quantum algorithms and quantum machine learning could assist high-energy physics, ranging from studying neutrino oscillations to reconstructing particle trajectories in colliders.
Alberto Di Meglioet al.
PRX Quantum5,037001 (2024)
NEW ARTICLE
A novel scattering-mitigation scheme, using only an integrating sphere, is experimentally demonstrated to recover nearly 50% of mutual information in a quantum correlated two-mode squeezed state of light, despite a photon loss exceeding 85% in one of the modes.
Zhenfei Jianget al.
PRX Quantum5,030351 (2024)
NEW ARTICLE
Low crosstalk levels are achieved in a superconducting quantum processor, indicating the potential of scaling up to larger numbers of qubits.
Sandoko Kosenet al.
PRX Quantum5,030350 (2024)
NEW ARTICLE
A new dressed state-based method for imaging ultracold atoms achieves subwavelength resolution and reveals the complementary capabilities of two opposite imaging strength regimes to spatially resolve nanoscale quantum states.
R. Veyronet al.
PRX Quantum5,030349 (2024)
NEW ARTICLE
Numerical studies suggest that quantum optimization may provide a polynomial speedup over the best classical solvers for constraint satisfaction problems.
Sami Boulebnane and Ashley Montanaro
PRX Quantum5,030348 (2024)
NEW ARTICLE
Higher-frequency superconducting qubits with increased thermal resilience are produced, allowing for scaling up of quantum processors with high heat dissipation budgets.
Alexander Anferovet al.
PRX Quantum5,030347 (2024)
NEW ARTICLE
Autonomous stabilization of remote entanglement is achieved experimentally with a pair of noninteracting superconducting qubits connected by an open waveguide.
Parth S. Shah, Frank Yang, Chaitali Joshi, and Mohammad Mirhosseini
PRX Quantum5,030346 (2024)
NEW ARTICLE
A new protocol enables the generation of arbitrary symmetric entangled states using only global single-qubit rotations in a torn Hilbert space, offering applications in variational quantum optimization with existing technology.
Tao Zhang, Zhihao Chi, and Jiazhong Hu
PRX Quantum5,030345 (2024)