Atomic entanglement purification and concentration using coherent state input-output process in low-Q cavity QED regime C Cao, C Wang, L He, R Zhang Optics Express 21 (4), 4093-4105, 2013 | 93 | 2013 |
Implementation of single-photon quantum routing and decoupling using a nitrogen-vacancy center and a whispering-gallery-mode resonator-waveguide system C Cao, YW Duan, X Chen, R Zhang, TJ Wang, C Wang Optics Express 25 (15), 16931-16946, 2017 | 73 | 2017 |
Cavity-mediated coupling of phonons and magnons YP Gao, C Cao, TJ Wang, Y Zhang, C Wang Physical Review A 96 (2), 023826, 2017 | 66 | 2017 |
One-step hyperentanglement purification and hyperdistillation with linear optics TJ Wang, LL Liu, R Zhang, C Cao, C Wang Optics express 23 (7), 9284-9294, 2015 | 65 | 2015 |
Linear-optical implementation of hyperdistillation from photon loss TJ Wang, C Cao, C Wang Physical Review A 89 (5), 052303, 2014 | 56 | 2014 |
Concentrating partially entangled W-class states on nonlocal atoms using low-Q optical cavity and linear optical elements C Cao, X Chen, YW Duan, L Fan, R Zhang, TJ Wang, C Wang Science China Physics, Mechanics & Astronomy 59, 1-7, 2016 | 53 | 2016 |
Nonlocal hyperconcentration on entangled photons using photonic module system C Cao, TJ Wang, SC Mi, R Zhang, C Wang Annals of Physics 369, 128-138, 2016 | 47 | 2016 |
Tunable high-order sideband spectra generation using a photonic molecule optomechanical system C Cao, SC Mi, YP Gao, LY He, D Yang, TJ Wang, R Zhang, C Wang Scientific reports 6 (1), 22920, 2016 | 46 | 2016 |
Photon excitation and photon-blockade effects in optomagnonic microcavities YP Gao, XF Liu, TJ Wang, C Cao, C Wang Physical Review A 100 (4), 043831, 2019 | 41 | 2019 |
Discerning electromagnetically induced transparency from Autler-Townes splitting in plasmonic waveguide and coupled resonators system LY He, TJ Wang, YP Gao, C Cao, C Wang Optics Express 23 (18), 23817-23826, 2015 | 39 | 2015 |
Complete and faithful hyperentangled-Bell-state analysis of photon systems using a failure-heralded and fidelity-robust quantum gate C Cao, L Zhang, YH Han, PP Yin, L Fan, YW Duan, R Zhang Optics express 28 (3), 2857-2872, 2020 | 36 | 2020 |
High‐Fidelity Universal Quantum Controlled Gates on Electron‐Spin Qubits in Quantum Dots Inside Single‐Sided Optical Microcavities C Cao, YH Han, L Zhang, L Fan, YW Duan, R Zhang Advanced Quantum Technologies 2 (10), 1900081, 2019 | 36 | 2019 |
Efficient nonlocal two-step entanglement concentration protocol for three-level atoms in an arbitrary less-entangledw state using cavity input-output process R Zhang, SH Zhou, C Cao Science China Physics, Mechanics & Astronomy 57, 1511-1518, 2014 | 27 | 2014 |
Universal photonic three-qubit quantum gates with two degrees of freedom assisted by charged quantum dots inside single-sided optical microcavities BY Xia, C Cao, YH Han, R Zhang Laser Physics 28 (9), 095201, 2018 | 26 | 2018 |
Heralded high-fidelity quantum hyper-CNOT gates assisted by charged quantum dots inside single-sided optical microcavities YH Han, C Cao, L Fan, R Zhang Optics Express 29 (13), 20045-20062, 2021 | 25 | 2021 |
Efficient multipartite entanglement concentration protocol for nitrogen-vacancy center and microresonator coupled systems C Cao, H Ding, Y Li, TJ Wang, SC Mi, R Zhang, C Wang Quantum Information Processing 14, 1265-1277, 2015 | 25 | 2015 |
Entanglement concentration for multi-particle partially entangled W state using nitrogen vacancy center and microtoroidal resonator system L He, C Cao, C Wang Optics Communications 298, 260-266, 2013 | 25 | 2013 |
Cluster state entanglement generation and concentration on nitrogen-vacancy centers in decoherence-free subspace C Cao, TJ Wang, R Zhang, C Wang Laser Physics Letters 12 (3), 036001, 2015 | 24 | 2015 |
Hybrid entanglement concentration using quantum dot and microcavity coupled system C Wang, C Cao, L He, C Zhang Quantum information processing 13, 1025-1034, 2014 | 23 | 2014 |
Optical high-order sideband comb generation in a photonic molecule optomechanical system C Cao, SC Mi, TJ Wang, R Zhang, C Wang IEEE Journal of Quantum Electronics 52 (6), 1-5, 2016 | 21 | 2016 |