Citations of Hybrid opto-mechanical systems

  1. Entangling distant solid-state spins via thermal phonons, Puhao Cao, Ralf Betzholz, Shaoliang Zhang, Jianming Cai, arXiv:1710.01455
  2. Lei-ming Zhou, Ke-wen Xiao, Zhang-qi Yin, Jun Chen, Nan Zhao*, “Displacement detection sensitivity of a sphere levitated by a doughnut laser beam”, arXiv:1709.07177.
  3. Rui-xia Wang, Kang cai, Zhang-qi Yin*, Gui-lu Long*, “Quantum memory and non-demolition measurement of single phonon state with nitrogen-vacancy centers ensemble”, arXiv:1705.10954.
  4. Diamonds levitating in a Paul trap under vacuum: Measurements of laser-induced heating via NV center thermometry, T. Delord, L. Nicolas, M. Bodini, and G. Hétet, Appl. Phys. Lett. 111, 013101 (2017)
  5. Quantum non-demolish measurement of a single phonon state with nitrogen-vacancy centers ensemble and a superconducting qubit, Rui-xia Wang, Kang cai, Zhang-qi Yin*, Gui-lu Long*, in preparing.
  6. Strong coupling between a single NV spin and the torsional mode of diamonds levitating in an ion trap,T. Delord, L. Nicolas, Y. Chassagneux, G. Hétet,arXiv:1702.00774
  7. Diamonds levitating in a Paul trap under vacuum: measurements of laser-induced heating via NV center thermometry; T. Delord, L. Nicolas, M. Bodini, G. Hétet; arXiv:1701.06407
  8. Kang Cai, Rui-Xia Wang, Zhang-qi Yin*, Gui-Lu Long*, “Strong coupling between electrons spins and mechanical oscillator through the second order magnetic field gradient”,  arXiv:1610.09922.
  9. Blackledge, Charles Wesley. "Electromagnetic waveguide assembly." U.S. Patent No. 9,507,178. 29 Nov. 2016.
  10. Yue Ma, Thai M. Hoang, Ming Gong*, Tongcang Li*, and Zhang-qi Yin*, “Quantum many-body simulation and torsional matter-wave interferometry with a levitated nanodiamond”, arXiv:1611.05599.
  11. Optical Levitation of Nanodiamonds by Doughnut Beams in Vacuum; Lei-Ming Zhou, Ke-Wen Xiao, Jun Chen, Nan Zhao; arXiv:1609.08678
  12. Zhang-qi Yin*, Tongcang Li*, “Bringing quantum mechanics to life: from Schrodinger's cat to Schrodinger's microbe”, invited review, in preparing.
  13. Single and two-mode mechanical squeezing of an optically levitated nanodiamond via dressed-state coherence; Wenchao  Ge  and  M.  Bhattacharya; arXiv:1606.07054
  14. Thai M. Hoang, Yue Ma, Jonghoon Ahn, Jaehoon Bang, F. Robicheaux, Zhang-Qi Yin*, and Tongcang Li*, “Torsional optomechanics of a levitated nonspherical nanoparticle”,  arXiv:1605.03990.
  15. Yue Ma, Zhang-qi Yin*,  Pu Huang, W. L. Yang, and Jiangfeng Du*, “Cooling Mechanical Resonator to Quantum Regime by Heating it”,  arXiv:1603.05807.
  16. Wang, M. et al. Controllable chaos in hybrid electro-optomechanical systems. Sci. Rep. 6, 22705; doi: 10.1038/srep22705 (2016).
  17. Pei, Pei, et al. "Scalable Quantum Information Transfer between Individual Nitrogen-Vacancy Centers by a Hybrid Quantum Interface." Chinese Physics Letters 33.02 (2016): 20301.
  18. Tongcang Li* and Zhang-Qi Yin*, “Quantum superposition, entanglement, and state teleportation of a microorganism on an electromechanical oscillator”, Sci. Bull. 61, 163 (2016).
  19. Qidong Xu, W. L. Yang*, Zhang-qi Yin*, “Phonon induced two-mode squeezing of nitrogen-vacancy-center ensembles”,arXiv:1512.08605.
  20. Title: Optomechanical Interfaces for Hybrid Quantum Networks; Authors: Chunhua Dong, Yingdan Wang, Hailin Wang; Source: National Science Review, doi: 10.1093/nsr/nwv048
  21. Jing Qiu, Yang-Yang Wang, Zhang-Qi Yin, Mei Zhang, Qing Ai*, and Fu-Guo Deng;  “Quantum Zeno and Zeno-like effects in nitrogen vacancy center”, arXiv:1508.04560v1
  22. Title: Review of cavity optomechanics in the weak-coupling regime: from linearization to intrinsic nonlinear interactions; Authors: XIONG Hao, SI LiuGang, LV XinYou, YANG XiaoXue, WU Ying; Source: SCIENCE CHINAPhysics, Mechanics & Astronomy, May 2015 Vol. 58 No. 5: 050302