HIGHLIGHTS
SUMMARY
Most of these platforms rely on encoding quantum information on the Hilbert space of bound electrons, such as ion trap, artificial atoms implemented on superconducting circuit, Rydberg atom, and electron-spin system. A recent proposa that was demonstrated experimentall suggested going beyond bound electrons as carriers of quantum information, and instead encode qubits on free electrons by using their interaction with ultrafast laser pulses. The work promotes new capabilities based on transaction of quantum information at the interface between electron microscopy and quantum information, toward free-electron-based quantum_communication and quantum electron microscop. Measurement . . .
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