Quantum-inspired Fredkin gate based on spatial modes of light

Abstract: Distinguishing between strings of data or waveforms is at the core of multiple applications in information technologies. In a quantum language the task is to design protocols to differentiate quantum states. Quantum-based technologies promises to go beyond the capabilities offered by technologies based on classical principles. However the implementation of the logical gates that are the core of these systems is challenging since they should overcome quantum decoherence, low probability of success and are prone… Show more

“…In 2018, a twophoton three-qubit polarization-spatial Fredkin gate was experimentally demonstrated by Stárek et al [42] with a success probability of 1/9. There was also an experiment by Urrego et al in 2020 [43] using polarization and orbital angular momentum.…”

Low-Cost Fredkin Gate with Auxiliary Space

“…In 2018, a twophoton three-qubit polarization-spatial Fredkin gate was experimentally demonstrated by Stárek et al [42] with a success probability of 1/9. There was also an experiment by Urrego et al in 2020 [43] using polarization and orbital angular momentum.…”

Low-Cost Fredkin Gate with Auxiliary Space

Implementation of a simultaneous message-passing protocol using optical vortices

Alternative scheme for implementation of 3 qubit Fredkin gate with photonic bandgap crystal