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Single photons with high orbital angular momenta can act as higher order flying qubits, but efficient generation is scarce. The integration of a single quantum dot emitter into an on-chip mircoring resonator enables the generation of single photons in an orbital angular momentum superposition state.
An ion-exchange reaction couples self-propelling ZnO nanorods and sulfonated polystyrene microbeads to create an aggregated swarm system capable of quorum sensing.
This Perspective describes the key advances in nanocatalysts that have led to the impressive electrochemical conversion of CO2 to useful products and provides benchmarks that others can use to compare their results.
Quantum computing requires fast and selective control of a large number of individual qubits while maintaining coherence, which is hard to achieve concomitantly. All-electrical operation of a hole spin qubit in a Ge/Si nanowire demonstrates the principle of switching from a mode of selective and fast control to idling with increased coherence.
