We propose an interferometric scheme for generating the totally antisymmetric state of N identical bosons with N internal levels (generalized singlet). This state is a resource for various problems with dramatic quantum advantage. The procedure uses a sequence of Fourier multi-ports, combined with coincidence measurements filtering the results. Successful preparation of the generalized singlet is confirmed when the N particles of the input state stay separate (anti-bunch) on each multiport. The scheme is robust to local lossless noise and works even with a totally mixed input state.
Matteo Piccolini, Marcin Karczewski, Andreas Winter, Rosario Lo Franco (2025). Robust generation of N-partite N-level singlet states by identical particle interferometry. QUANTUM SCIENCE AND TECHNOLOGY, 10(1), 1-11 [10.1088/2058-9565/ad8214].
Robust generation of N-partite N-level singlet states by identical particle interferometry
Matteo PiccoliniInvestigation
;Rosario Lo FrancoSupervision
2025-01-01
Abstract
We propose an interferometric scheme for generating the totally antisymmetric state of N identical bosons with N internal levels (generalized singlet). This state is a resource for various problems with dramatic quantum advantage. The procedure uses a sequence of Fourier multi-ports, combined with coincidence measurements filtering the results. Successful preparation of the generalized singlet is confirmed when the N particles of the input state stay separate (anti-bunch) on each multiport. The scheme is robust to local lossless noise and works even with a totally mixed input state.
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