Citation list of superposition living objects

  1. Dynamics of coherence under Markovian and non-Markovian environments, ZX Wang, T Ma, SH Wang, TJ Wang… - Modern Physics Letters, 2017 
  2. Secure Quantum Dialogue Protocol Based On Four-Qubit Cluster State, W Li, XW Zha, Y Yu - International Journal of Theoretical Physics, 2017 - Springer
  3. Simultaneous Teleportation of Arbitrary Two-qubit and Two Arbitrary Single-qubit States Using A Single Quantum Resource, Choudhury, B.S. & Dhara, A. Int J Theor Phys (2017).
  4. Five-partite entanglement generation between two optical frequency combs in a quasi-periodic χ (2) nonlinear optical crystal, Guangqiang He, Yu Sun, Linxi Hu, Renhui Zhang, Xikun Chen & Jindong Wang, Scientific Reports 7, Article number: 9054 (2017)
  5. A New Generalization of von Neumann Relative Entropy, Jing Li, Huaixin Cao, Int J Theor Phys, (2017), DOI 10.1007/s10773-017-3503-7
  6. Junkai Dong, YiMing Chen, Da Xu*, Zhang-qi Yin*, “Greenberger-Horne-Zeilinger test for multi-dimension and arbitrary time nodes entangled histories”, accepted for Sci. Bull., arXiv:1610.04296.
  7. Polarization entanglement purification for concatenated Greenberger-Horne-Zeilinger state, Lan Zhou, Yu-Bo Sheng, Annals of Physics, in pressing.
  8. Magnetic Actuation and Feedback Cooling of a Cavity Optomechanical Torque Sensor, P.H. Kim, B.D. Hauer, T.J. Clark, F. Fani Sani, M.R. Freeman, and J.P. Davis, arXiv:1707.09471
  9. Fault-tolerant distribution of GHZ states and controlled DSQC based on parity analyses, Li Dong, Yan-Fang Lin, Cen Cui, Hai-Kuan Dong, Xiao-Ming Xiu, and Ya-Jun Gao, Opt. Express 25(16), 18581-18591 (2017)
  10. Ma, YM. & Wang, TJ. Int J Theor Phys (2017), in pressing,
  11. Jiang, Yu-ting, and Zhi-wen Mo. "Comparison and Analysis of the Control Power Between Two Different Perfect Controlled Teleportation Schemes Using Four-particle Cluster State." International Journal of Theoretical Physics (2017), in pressing.
  12. Distributed secure quantum machine learning, Yu-Bo Sheng, Lan Zhou, Science Bulletin,
  13. Conversion of entangled states with nitrogen-vacancy centers coupled to microtoroidal resonators, Y. Q. Ji, X. Q. Shao, and X. X. Yi, Optics Express Vol. 25, Issue 14, pp. 15806-15817 (2017)
  14. Phase control of entanglement and quantum steering in a three-mode optomechanical system, F. X. Sun, D. Mao, Y. T. Dai, Z. Ficek, Q. Y. He, Q. H. Gong, arXiv:1706.04474
  15. Experimental realization of single-shot nonadiabatic holonomic gates in nuclear spins, Li, H., Liu, Y. & Long, G. Sci. China Phys. Mech. Astron. (2017) 60: 080311. doi:10.1007/s11433-017-9058-7
  16. Can we Falsify the Consciousness-Causes-Collapse Hypothesis in Quantum Mechanics? J. Acacio de Barros, Gary Oas, arXiv:1609.00614
  17. Generic preparation and entanglement detection of equal superposition states, Qi Yu, YanBao Zhang, Jun Li, HengYan Wang, XinHua Peng, JiangFeng Du, Science China Physics, Mechanics & Astronomy, 2017, Volume 60, 070313.
  18. Experimental Quantum Hamiltonian Identification from Measurement Time Traces, Shi-Yao Hou, Hang Li and Gui-Lu Long, Journal: Science Bulletin, 2017, DOI: 10.1016/j.scib.2017.05.013
  19. Entanglement monogamy in three qutrit systems, Qiting Li, Jianlian Cui, Shuhao Wang and Gui-Lu Long, Scientific Reports, 2017, Volume 7, DOI: 10.1038/s41598-017-02066-8
  20. Robust hyperparallel photonic quantum entangling gate with cavity QED; Bao-Cang Ren and Fu-Guo Deng; Optics Express Vol. 25, Issue 10, pp. 10863-10873 (2017)
  21. Fusing atomic W states via quantum Zeno dynamics, Y. Q. Ji, X. Q. Shao & X. X. Yi, Scientific Reports 7, Article number: 1378 (2017)doi:10.1038/s41598-017-01499-5
  22. Relativer Quantenquark Kann die moderne Physik die Esoterik belegen? Authors:Holm Gero Hümmler; pp 103-138, Springer Berlin Heidelberg 2017
  23. Kang Cai, Rui-Xia Wang, Zhang-qi Yin*, Gui-Lu Long*, “The second order magnetic field gradient induced strong coupling between nitrogen-vacancy centers and a mechanical oscillator”, arXiv:1610.09922. accepted for SCI China Phys. Mech. Astro.
  24. “Quantifying Contextuality of Empirical Models in Terms of Trace-Distance”, Meng, H., Cao, H., Wang, W. et al. Int J Theor Phys (2017). doi:10.1007/s10773-017-3327-5
  25. Zhang-qi Yin*, Tongcang Li*, “Bringing quantum mechanics to life: from Schrodinger's cat to Schrodinger's microbe”, invited review, Contemporary Physics, DOI: 10.1080/00107514.2016.1261860 arXiv:1608.05322.
  26. Application of different entropies to study of bound magnetopolaron in an asymmetric quantum dot, Khordad, R. & Sedehi, H.R.R. Indian J Phys (2017). doi:10.1007/s12648-017-0969-3
  27. Kogias, Ioannis. Entanglement, Einstein-Podolsky-Rosen steering and cryptographical applications. Diss. University of Nottingham, 2016.
  28. Robust spatial-polarization hyperentanglement distribution of two-photon systems against collective noise; Cheng-Yan Gao, Guan-Yu Wang, Faris Alzahrani, Aatef Hobiny and Fu-Guo Deng; Journal of Physics B: Atomic, Molecular and Optical Physics, Volume 50, Number 5, 055502 (2017).
  29. Information gain versus interference in Bohr’s principle of complementarity, Yan Liu, Jing Lu, and Lan Zhou, Optics Express Vol. 25, Issue 1, pp. 202-211 (2017).
  30. Celebrating the 2nd birthday of Science Bulletin; Xiao-Ya Chen; Science Bulletin, 2017, DOI: 10.1016/j.scib.2016.11.008
  31. Qubit-wise teleportation and its application in public-key secret communication, Wu, C. & Yang, L. Sci. China Inf. Sci. (2017) 60: 032501. doi:10.1007/s11432-016-0152-4
  32. Universal Three-Qubit Entanglement Generation Based on Linear Optical Elements and Quantum Non-Demolition Detectors, Liu, XC. Int J Theor Phys (2016). doi:10.1007/s10773-016-3184-7
  33. Optimization of parameters of a surface-electrode ion trap and experimental study of influences of surface on ion lifetime, Ou, B., Zhang, J., Zhang, X. et al. Sci. China Phys. Mech. Astron. (2016) 59: 123011.
  34. Experimental quantum simulation of Avian Compass in a nuclear magnetic resonance system, Pearson, J., Feng, G., Zheng, C. et al. Sci. China Phys. Mech. Astron. (2016) 59: 120312.
  35. Controllably releasing long-lived quantum memory for photonic polarization qubit into multiple spatially-separate photonic channels,Lirong Chen, Zhongxiao Xu, Weiqing Zeng, Yafei Wen, Shujing Li & Hai Wang,Scientific Reports 6, Article number: 33959 (2016).
  36. Local discrimination scheme for some unitary operations,Cao, T., Gao, F., Tian, G. et al. Sci. China Phys. Mech. Astron. (2016) 59: 690311. doi:10.1007/s11433-016-0121-8
  37. Species Distributions, Quantum Theory, and the Enhancement of Biodiversity Measures; R Real, AM Barbosa, JW Bull - Systematic Biology, 2016
  38. An uncertainty relation in terms of generalized metric adjusted skew information and correlation measure, Fan, Y., Cao, H., Meng, H. et al. Quantum Inf Process (2016). doi:10.1007/s11128-016-1419-4
  39. The Transporter: Are We There yet?, ME Lasbury - The Realization of Star Trek Technologies, 2017
  40. Two generalized Wigner–Yanase skew information and their uncertainty relations, Chen, Z., Liang, L., Li, H. et al. Quantum Inf Process (2016). doi:10.1007/s11128-016-1434-5
  41. Witness for Non-Quasi Maximally Entangled States ,Feng, T., Guo, Z. & Cao, H. Int J Theor Phys (2016). doi:10.1007/s10773-016-3141-5
  42. Quantum entanglement swapping of two arbitrary biqubit pure states, Xie, C., Liu, Y., Chen, J. et al. Sci. China Phys. Mech. Astron. (2016) 59: 100314. doi:10.1007/s11433-016-0189-1
  43. Quantum Zeno effect in a nitrogen-vacancy center embedded in a spin bath; Zhi-Sheng Yang, Wen Yang, Mei Zhang, Qing Ai, Fu-Guo Deng; arXiv:1608.02168
  44. Continuity of the robustness of contextuality of empirical models, Meng, H., Cao, H., Wang, W. et al. Sci. China Phys. Mech. Astron. (2016) 59: 100311. doi:10.1007/s11433-016-0210-2
  45. Complete hyperentangled Bell state analysis for polarization and time-bin hyperentanglement; Xi-Han Li and Shohini Ghose; Optics Express Vol. 24, Issue 16, pp. 18388-18398 (2016)
  46. Local discrimination scheme for some unitary operations, Cao, T., Gao, F., Tian, G. et al. Sci. China Phys. Mech. Astron. (2016) 59: 690311.
  47. High-Dimensional Circular Quantum Secret Sharing Using Orbital Angular Momentum; Dawei Tang, Tie-jun Wang, Sichen Mi, Xiao-Meng Geng, Chuan Wang; Int J Theor Phys (2016). doi:10.1007/s10773-016-3120-x
  48. Experimental demonstration of concatenated composite pulses robustness to non-static errors; Xing-Long Zhen, Tao Xin, Fei-Hao Zhang, Gui-Lu Long; Sci. China Phys. Mech. Astron. (2016) 59: 690312.
  49. Distribution of standard deviation of an observable among superposed states; Chang-shui Yu, Ting-ting Shao and Dong-mo Li; Annals of Physics, 2016, DOI: 10.1016/j.aop.2016.06.017
  50. Decoherence of rotational degrees of freedom; Changchun  Zhong∗and  F.  Robicheaux; arXiv:1605.03160
  51. 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
  52. Generating multi-photon W-like states for perfect quantum teleportation and superdense coding; Ke Li, Fan-Zhen Kong, Ming Yang , Fatih Ozaydin, Qing Yang, Zhuo-Liang Cao; Quantum Information Processing, online first.
  53. A potential application in quantum networks—Deterministic quantum operation sharing schemes with Bell states; KeJia Zhang, Long Zhang , TingTing Song, YingHui Yang; Science China Physics, Mechanics & Astronomy June 2016, 59:660302
  54. Feng Gao, Hai-Qiang Ma, and Rong-Zhen Jiao, Mod. Phys. Lett. B DOI: 10.1142/S021798491650189X 
  55. Planet versions of the state of Schrödinger’s cat prepared by using quantum measurements; Yong-Yi Huang; Journal of the Korean Physical Society, Vol. 68, No. 8, April 2016
  56. Wang Z, Zhang C, Huang Y F, et al. Experimental verification of genuine multipartite entanglement without shared reference frames[J]. Science Bulletin, 2016: 1-6.
  57. Clemente, L. (2016). Quantum violation of classical physics in macroscopic systems (Doctoral dissertation, lmu).
  58. Zheng-Yuan Xue, Zhang-Qi Yin*, Yan Chen, Z. D. Wang*, Shi-Liang Zhu*, "Topologically-protected quantum memory interfacing atomic and superconducting qubits", 已被《中国科学》接收,arXiv:1301.4139.
  59. Toward quantum teleporting living objects; Qing Ai; Science Bulletin (2016).