Insider Brief
Researchers demonstrated strong coupling between a microwave photon and the motional state of a single electron on superfluid helium, achieving a key requirement for electron-on-helium quantum computing architectures.
The team measured an electron-photon coupling rate of 118 MHz, exceeding both the resonator linewidth and electron decoherence rate, and confirmed the result through observations of vacuum Rabi splitting.
The study also identified dephasing as the dominant source of decoherence and outlined future work aimed at enabling spin readout and scalable qubit designs using electrons on helium.
Researchers have demonstrated the strong coupling of a microwave photon to the motion of a single electron trapped above superfluid helium.
