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Trapped Ion Quantum Computing
Large-scale free-space photonic circuits in two dimensions
arXiv
Authors: Maria Gorizia Ammendola, Francesco Di Colandrea, Lorenzo Marrucci, Filippo Cardano
Year
2024
Paper ID
66593
Status
Preprint
Abstract Read
~2 min
Abstract Words
157
Citations
N/A
Abstract
Photonic circuits, engineered to couple optical modes according to a specific map, serve as processors for classical and quantum light. The number of components typically scales with that of processed modes, thus correlating system size, circuit complexity, and optical losses. Here we present a photonic-circuit technology implementing large-scale unitary maps in free space, coupling a single input to hundreds of output modes in a two-dimensional compact layout. The map corresponds to a quantum walk of structured photons, realized through light propagation in three liquid-crystal metasurfaces, having their optic axes artificially patterned. Theoretically, the walk length and the number of connected modes can be arbitrary, while keeping losses constant. The patterns can be designed to replicate multiple unitary maps. We also discuss limited reconfigurability by adjusting the overall birefringence and the relative displacement of the optical elements. These results lay the basis for the design of low-loss non-integrated photonic circuits, primarily for manipulating multi-photon states in quantum regimes.
Why This Paper Matters
- This paper contributes to the Trapped-Ion Quantum Computing research area in the Quantum Articles archive.
- It adds a 2024 reference point for readers tracking recent quantum research.
- Photonic circuits, engineered to couple optical modes according to a specific map, serve as processors for classical and quantum light.
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