Vahid Ameri scite author profile

Spontaneous synchronization is a fundamental phenomenon, important in many theoretical studies and applications. Recently this effect has been analyzed and observed in a number of physical systems close to the quantum mechanical regime. In this work we propose the mutual information as a useful order parameter which can capture the emergence of synchronization in very different contexts, ranging from semi-classical to intrinsically quantum mechanical systems. Specifically we first study the synchronization of two coupled Van der Pol oscillators in both classical and quantum regimes and later we consider the synchronization of two qubits inside two coupled optical cavities. In all these contexts, we find that mutual information can be used as an appropriate figure of merit for determining the synchronization phases, independently of the specific details of the system.

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Eco-friendly synthesis of PbTiO3 nanoparticles and PbTiO3/carbon quantum dots binary nano-hybrids for enhanced photocatalytic performance under visible light

Kooshki

Sobhani‐Nasab

Eghbali-Arani

et al. 2019

Separation and Purification Technology

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Electromagnetic field quantization in the presence of a rotating body

Kheirandish

Ameri

2014

Phys. Rev. A

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Starting from a Lagrangian, the electromagnetic field is quantized in the presence of a body rotating along its axis of symmetry. Response functions and fluctuation-dissipation relations are obtained. A general formula for rotational friction and power radiated by a rotating dielectric body is obtained in terms of the dyadic Green's tensor. Hamiltonian is determined and possible generalizations are discussed. As an example, the rotational friction and power radiated by a spherical dielectric in the vicinity of a semi-infinite dielectric plane is obtained and discussed in some limiting cases.

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Entanglement of two hybrid optomechanical cavities composed of BEC atoms under Bell detection

Eghbali-Arani

Ameri

2016

Quantum Inf Process

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In this paper, firstly, we consider bipartite entanglement between each part of an optomechanical cavity composed of one dimensional Bose-Einstein condensate (BEC). We investigate atomic collision on the behavior of the BEC in the week photon-atom coupling constant, and use Bogoliubov approximation for the BEC. Secondly under above condition, we propose a scheme for entanglement swapping protocol wich involves tripartite systems. In our investigation, we consider a scenario where BECs, moving mirrors, and optical cavity modes are given in a Gaussian state with a covariance matrix (CM). By applying the Bell measurement to the output optical field modes, we show how the remote entanglement between two BECs, two moving mirrors, and BEC-mirror modes in different optomechanical cavity can be generated.

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New route for preparation of cerium vanadate nanoparticles with different morphology and investigation of optical and photocatalytic properties

Ameri

Eghbali-Arani

Pourmasoud

2017

J Mater Sci: Mater Electron

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Vahid Ameri

Mutual information as an order parameter for quantum synchronization

Eco-friendly synthesis of PbTiO3 nanoparticles and PbTiO3/carbon quantum dots binary nano-hybrids for enhanced photocatalytic performance under visible light

Electromagnetic field quantization in the presence of a rotating body

Entanglement of two hybrid optomechanical cavities composed of BEC atoms under Bell detection

New route for preparation of cerium vanadate nanoparticles with different morphology and investigation of optical and photocatalytic properties

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