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Non-Gaussian states and measurements for quantum information

Abstract : In the present PhD work, we focus on a specific class of quantum states of light: the non-Gaussian states. These states have the particularity of exhibiting Wigner functions with some negative values. This quantum feature is a necessary condition to perform some quantum computation task; furthermore it is also useful for various other applications, including quantum communication and metrology. Different strategies can be used to generate these states. Here, we start from Gaussian states produced by optical parametric oscillators in the continuous wave regime, (i.e. single-mode and two-mode squeezed vacuum states). The non-Gaussian feature can only be obtained by non-linear phenomena (over-quadratic Hamiltonian). In our case, the non-linearity is induced by photon-counting-based measurements (also called non-Gaussian measurements). This study is mainly divided into two parts. First, the generation of non-classical states associated with two types of qubit encoding: the single-photon state, used for quantum information with discrete variables, and the coherent state superposition (the so-called optical Schrödinger cat state), used for quantum information with continuous variables. These two states have then been used to perform some quantum information protocols. The first one addresses the problem of single-photon entanglement witness, and the other the generation of entanglement between the two encodings (also called hybrid entanglement).
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Contributor : Olivier Morin <>
Submitted on : Monday, December 15, 2014 - 3:43:35 PM
Last modification on : Friday, May 29, 2020 - 4:01:13 PM
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  • HAL Id : tel-01066655, version 2


Olivier Morin. Non-Gaussian states and measurements for quantum information. Quantum Physics [quant-ph]. Université Pierre et Marie Curie - Paris VI, 2013. English. ⟨tel-01066655v2⟩



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