Efficient production of large-size optical Schrödinger cat states

We present novel theory of effective realization of large-size optical Schrödinger cat states, which play an important role for quantum communication and quantum computation in the optical domain using laser sources. The treatment is based on the α -representation in infinite Hilbert space which is...

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Bibliographic Details
Published in:Scientific reports 2019-10, Vol.9 (1), p.14301-15, Article 14301
Main Authors: Mikheev, Evgeny V., Pugin, Alexander S., Kuts, Dmitry A., Podoshvedov, Sergey A., An, Nguyen Ba
Format: Article
Language:English
Subjects:
119/118
639/766/483/2802
639/766/483/640
Hilbert space
Humanities and Social Sciences
Information processing
multidisciplinary
Quantum computing
Science
Science (multidisciplinary)
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Summary:We present novel theory of effective realization of large-size optical Schrödinger cat states, which play an important role for quantum communication and quantum computation in the optical domain using laser sources. The treatment is based on the α -representation in infinite Hilbert space which is the decomposition of an arbitrary quantum state in terms of displaced number states characterized by the displacement amplitude α . We find analytical form of the α -representation for both even and odd Schrödinger cat states which is essential for their generation schemes. Two schemes are proposed for generating even/odd Schrödinger cat states of large size | β | (| β | ≥ 2) with high fidelity F ( F  ≈ 0.99). One scheme relies on an initially offline prepared two-mode entangled state with a fixed total photon number, while the other scheme uses separable photon Fock states as the input. In both schemes, generation of the desired states is heralded by the corresponding measurement outcomes. Conditions for obtaining states useful for quantum information processing are established and success probabilities for their generation are evaluated.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-019-50703-1