Expanding possibilities of quantum state engineering and amplifying optical Schrodinger kitten state
Evgeny V. Mikheev, Sergey A. Podoshvedov, Nguyen Ba An

TL;DR
This paper presents a versatile optical method for engineering large Schrödinger cat states with high fidelity by manipulating their alpha-representation, enabling broader control over nonclassical state generation.
Contribution
It introduces a universal optical scheme that uses linear optics and detectors to generate large-size Schrödinger cat states from smaller input states, expanding state engineering possibilities.
Findings
Achieved high-fidelity SCSs with beta=2 to 3
Demonstrated manipulation of state amplitudes via alpha-representation
Enabled generation of large SCSs from small input states
Abstract
We demonstrate an optical method to engineer optical Schr\"odinger cat states (SCSs) of large size beta ranging from beta=2 to beta=3 with high fidelity close to 0.99. Our approach uses the alpha-representation of the SCSs in infinite Hilbert space with base in terms of displaced number states characterized by the displacement amplitude alpha. An arbitrary alpha-representation of SCSs enables manipulation of the amplitudes in wider ranges of parameters, greatly expanding the possibilities for generation of desired nonclassical states. The optical scheme we consider is quite universal for implementation of the conditioned states close to SCSs with use of linear-optics elements and detectors projecting unitarily transformed input states onto the target one. Different states (e.g., number state or coherent state or superposed state) are selected as the input to the optical scheme. In…
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Taxonomy
TopicsQuantum Information and Cryptography · Cold Atom Physics and Bose-Einstein Condensates · Quantum Mechanics and Applications
