学术论文: (1)He Yong, Plasmon field enhancement oscillations induced by strain-mediated coupling between quantum dot and mechanical oscillator. Nanotechnology 28, 255203 (2017). (2)He Yong and Zhu Ka Di, Fano Effect and Quantum Entanglement in Hybrid Semiconductor Quantum Dot-Metal Nanoparticle System. Sensors 17, 1445(2017). (3)He Yong and Jiang Meiping, Entanglement of two optically driven quantum dots mediated by phonons in nanomechanical resonator. Optics Communications 382, 580-4 (2017).
(4)He Yong, Light storage and cavity supermodes in two coupled optomechanical cavities. Physical Review A 94, 063804 (2016).
(5) He Yongand Jiang Meiping, Ultrasensitive mass sensing method based on slow light in cavity optomechanics. Applied Physics Express 9, 052205 (2016)
(6) He Yong,Sensitivity of optical mass sensor enhanced by optomechanical coupling. Applied Physics Letters 106, 121905 (2015).
(7) He Yong, Optomechanically induced transparency associated with steady-state entanglement. Physical Review A 91, 013827 (2015).
(8) He Yong and Zhu Ka Di, Fano correlation effect of optical response due to plasmon–exciton–plasmon interaction in an artificial hybrid molecule system. Journal of Optical Society of America B 30, 868-73 (2013).
(9) He Yong and Zhu Ka Di, Optical detection of quantum entanglement between two quantum dots near a metal nanoparticle. Quantum Information and Computation 13, 0324-33(2013).
(10) He Yong, Jiang Cheng, Chen Bin, Li Jin Jin and Zhu Ka Di, Optical determination of vacuum Rabi splitting in a semiconductor quantum dot induced by a metal nanoparticle. Optics Letters 37, 2943-45 (2012).
(11) He Yong and Zhu Ka Di, Strong coupling among semiconductor quantum dots in-duced by a metal nanoparticle. Nanoscale Research Letters 7, 95-100 (2012).
(12) He Yong, Li Jin Jin, and Zhu Ka Di, A tunable optical response of a hybrid semiconductor quantum dot-metal nanoparticle complex in the presence of optical excitations. Journal of Optical Society of AmericaB 29, 997-1002 (2012).
(13) He Yong and Jiang Nian Quan, Schemes to generate and distinguish a type of genuine four-qubit entangled states in a cavity QED system. Optics Communications 283, 1558-60 (2010).
(14) He Yong, Jiang Nian Quan, and Ji Yong Yun One-dimensional cluster state generated in one step via one cavity. Optics Communications 283, 1979-83 (2010).
(15) He Yong and Jiang Nian Quan, Nondestructive and complete Bell-state analysis for atomic qubit systems. Chinese Physics B 19, 090310 (2010).
(16) He Yong and Jiang Nian Quan, Efficient Atomic One-Qubit Phase Gate Realized by a Cavity QED and Identical Atoms System. Communications in Theoretical Physics 53, 97-9 (2010).
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