Quantifying non-classical correlations under thermal effects in a double cavity optomechanical system  

作　　者：Mohamed Amazioug Larbi Jebli Mostafa Nassik Nabil Habiballah 

机构地区：[1]Department of Physics,Ecole Normale Supérieure(ENS),Mohammed V University in Rabat,Morocco [2]LPHE-MS,Department of Physics,Faculty of Sciences,Mohammed V University,Rabat,Morocco [3]EPTHE,Department of Physics,Faculty of Sciences,Ibn Zohr University,Agadir,Morocco [4]Faculty of Applied Sciences,Ibn Zohr University,Ait-Melloul,Morocco [5]Abdus Salam International Center for Theoretical Physics,Strada Costiera,11,34151,Trieste,Italy

出　　处：《Chinese Physics B》2020年第2期121-128,共8页中国物理B（英文版）

摘　　要：We investigate the generation of quantum correlations between mechanical modes and optical modes in an optomechanical system,using the rotating wave approximation.The system is composed of two Fabry-Pérot cavities separated in space;each of the two cavities has a movable end-mirror.Our aim is the evaluation of entanglement between mechanical modes and optical modes,generated by correlations transfer from the squeezed light to the system,using Gaussian intrinsic entanglement as a witness of entanglement in continuous variables Gaussian states,and the quantification of the degree of mixedness of the Gaussian states using the purity.Then,we quantify nonclassical correlations between mechanical modes and optical modes even beyond entanglement by considering Gaussian geometric discord via the Hellinger distance.Indeed,entanglement,mixdness,and quantum discord are analyzed as a function of the parameters characterizing the system(thermal bath temperature,squeezing parameter,and optomechanical cooperativity).We find that,under thermal effect,when entanglement vanishes,purity and quantum discord remain nonzero.Remarkably,the Gaussian Hellinger discord is more robust than entanglement.The effects of the other parameters are discussed in detail.We investigate the generation of quantum correlations between mechanical modes and optical modes in an optomechanical system,using the rotating wave approximation.The system is composed of two Fabry-Perot cavities separated in space;each of the two cavities has a movable end-mirror.Our aim is the evaluation of entanglement between mechanical modes and optical modes,generated by correlations transfer from the squeezed light to the system,using Gaussian intrinsic entanglement as a witness of entanglement in continuous variables Gaussian states,and the quantification of the degree of mixedness of the Gaussian states using the purity.Then,we quantify nonclassical correlations between mechanical modes and optical modes even beyond entanglement by considering Gaussian geometric discord via the Hellinger distance.Indeed,entanglement,mixdness,and quantum discord are analyzed as a function of the parameters characterizing the system(thermal bath temperature,squeezing parameter,and optomechanical cooperativity).We find that,under thermal effect,when entanglement vanishes,purity and quantum discord remain nonzero.Remarkably,the Gaussian Hellinger discord is more robust than entanglement.The effects of the other parameters are discussed in detail.

关 键 词：CAVITY OPTOMECHANICS quantum CORRELATIONS GAUSSIAN intrinsic entanglement purity GAUSSIAN Hellinger DISCORD GAUSSIAN geometric DISCORD 

分 类 号：O413[理学—理论物理]