Generation of Schrödinger cat states by generalized photon subtraction

AbstractThe coherent superposition of two well separated Gaussian wavepackets, with defects caused by their imperfect preparation, is considered within the phase-space approach based on the Wigner distribution function. This generic state is called the defective Schrödinger cat state due to this imperfection which significantly modifies the interference term. Propagation of this state in the phase space is described by the Moyal equation which is solved for the case of a dispersive medium with a Gaussian barrier in the above-barrier reflection regime. Formally, this regime constitutes conditions for backscattering diffraction phenomena. Dynamical quantumness and the degree of localization in the phase space of the considered state as a function of its imperfection are the subject of the performed analysis. The obtained results allow concluding that backscattering communication based on the defective Schrödinger cat states appears to be feasible with existing experimental capabilities.

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QUANTUM FEEDBACK FOR PROTECTION OF SCHRÖDINGER CAT STATES

The Foundations of Quantum Mechanics ◽

10.1142/9789812793560_0014 ◽

2000 ◽

Author(s):

M. FORTUNATO ◽

P. TOMBESI ◽

D. VITALI ◽

J. M. RAIMOND

Keyword(s):

Quantum Feedback ◽

Schrödinger Cat ◽

Cat States

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Testing Quantum Coherence in Stochastic Electrodynamics with Squeezed Schrödinger Cat States

Atoms ◽

10.3390/atoms7020042 ◽

2019 ◽

Vol 7 (2) ◽

pp. 42 ◽

Cited By ~ 7

Author(s):

Wayne Huang ◽

Herman Batelaan

Keyword(s):

Quantum Mechanics ◽

Probability Distribution ◽

Interference Pattern ◽

Quantum Coherence ◽

Laser Pulses ◽

Quantum Probability ◽

Harmonic Oscillators ◽

Stochastic Electrodynamics ◽

Schrödinger Cat ◽

Cat States

The interference pattern in electron double-slit diffraction is a hallmark of quantum mechanics. A long-standing question for stochastic electrodynamics (SED) is whether or not it is capable of reproducing such effects, as interference is a manifestation of quantum coherence. In this study, we used excited harmonic oscillators to directly test this quantum feature in SED. We used two counter-propagating dichromatic laser pulses to promote a ground-state harmonic oscillator to a squeezed Schrödinger cat state. Upon recombination of the two well-separated wavepackets, an interference pattern emerges in the quantum probability distribution but is absent in the SED probability distribution. We thus give a counterexample that rejects SED as a valid alternative to quantum mechanics.

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SUPERPOSITION OF THE λ-PARAMETERIZED SQUEEZED STATES

Modern Physics Letters B ◽

10.1142/s0217984900000367 ◽

2000 ◽

Vol 14 (07n08) ◽

pp. 243-250

Author(s):

XIAO-GUANG WANG ◽

HONGCHEN FU

Keyword(s):

Algebraic Characterization ◽

Squeezed States ◽

Nonclassical Properties ◽

Intermediate States ◽

Schrödinger Cat ◽

Cat States ◽

Superposition States

The superposition states of the λ-parameterized squeezed states are introduced and investigated. These states are intermediate states interpolating between the number and Schrödinger cat states and admit algebraic characterization in terms of su(1, 1) algebra. It is shown that these states exhibit remarkable nonclassical properties.

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