PUBLICATIONS (in reverse chronological order)

1. W. Wang, Z.-Y. You, S.-P. Wang, Z.-K. Tang, Hou Ian, “Computing Shor’s algorithmic steps with interference patterns of classical beams,” arXiv:2103.16226 (2021).

2. Y. Wang, B. Xu, D. Zhang, W. He, H. Ian, “Compact Photonic-Crystals Based Isolator Using Ni–Zn Gyromagnetic Ferrite Posts,” Appl. Sci. 11, 6177 (2021).

3. Y. Zheng, J. Li, B.-P. Zhou, H. Ian, H. Shao, “Advanced sensitivity amplification strategies for voltammetric immunosensors of tumor marker: State of the art,” Biosensors and Bioelectronics 178, 113021 (2021).

4. Z.-Y. You, Z.-K. Tang, and H. Ian, “Measurement of Classical Entanglement Using Interference Fringes,” J. Op. Soc. Am. B 38, 1798 (2021).

5. T.-T. Huan, R.-G. Zhou, F. Nori, and H. Ian, “Periodic Entanglement Revivals of Asynchronously Excited Cavity-Coupled Qubits,” arXiv:2005.01991 (2020).

6. Y. Zhang, T.-T. Huan, R.-G. Zhou, and H. Ian, “Ramsey-like Spectroscopy of Superconducting Qubits with Dispersive Evolution,” Phys. Rev. A 102, 013710 (2020).

7. T.-T. Huan, R.-G. Zhou, and H. Ian, “Synchronization of Two Cavity-Coupled Qubits Measured by Entanglement,” Sci. Rep. 10, 12975 (2020).

8. Y.-B. Gao, S.-J. Jin, and H. Ian, “Decoherence-free propagation and ramification of a solitary pulse,” New J. Phys. 22, 103041 (2020).

9. Y.-B. Gao, S.-J. Jin, Y. Zhang, and H. Ian, “Pulse-qubit interaction in a superconducting circuit under linearly dissipative environment,” Quantum Inf. Proc. 19, 313 (2020).

10. R.-G. Zhou, X. Li, C. Qian, and H. Ian, “Quantum Bidirectional Teleportation 2 ↔ 2 or 2 ↔ 3 Qubit Teleportation Protocol Via 6-Qubit Entangled State,” Int. J. Theo. Phys. 59, 166 (2020).

11. Z. Liu, T. Huan, and H. Ian, “Evolution of skyrmion crystals in Fe_0.5Co_0.5Si-like quasi-two-dimensional ferromagnets driven by external magnetic field and temperature” Superlattices and Microstructures 138, 106379 (2020).

12. R. Zhou, Y. Zhang, R. Xu, C. Qian, and H. Ian, “Asymmetric Bidirectional Controlled Teleportation by Using Nine-Qubit Entangled State in Noisy Environment,” IEEE Access 7, 75247 (2019).

13. G. Luo, R.-G. Zhou, J. Luo, W. Hu, Y. Zhou, and H. Ian, “Adaptive LSB quantum watermarking method using tri-way pixel value differencing,” Quan. Inf. Proc. 18, 49 (2019).

14. P. Y. Wen, K.-T. Lin, A. F. Kockum, B. Suri, H. Ian, J. C. Chen, S. Y. Mao, C. C. Chiu, P. Delsing, F. Nori, G.-D. Lin, and I.-C. Hoi, “Large collective Lamb shift of two distant superconducting artificial atoms,” Phys. Rev. Lett. 123, 233602 (2019).

15. R. Zhou, C. Qian, and H. Ian, “Cyclic and Bidirectional Quantum Teleportation via Pseudo Multi-Qubit States,” IEEE Access 7, 42445 (2019).

16. H. Ian, B. Chen, and W. Zhao, “A practicable guide to the quantum computation architectures,” arXiv:1903.10739 (2019).

17. R. Zhou, R. Xu, and H. Ian, “Bidirectional quantum teleportation by using six-qubit cluster state,” IEEE Access 7, 44269 (2019).

18. Z. Liu and H. Ian, “A sum rule of uniaxial anisotropy and external magnetic field for formation of Néel-type skyrmion lattices in two-dimensional ferromagnets,” J. Phys.: Condens. Matter 31, 215302 (2019).

19. Z. Liu and H. Ian, “Ferromagnetic sublattices of antiferromagnetic skyrmion crystals formed in two-dimensional square lattices,” Superlattices and Microstructures 126, 25 (2019).

20. G. Luo, R.-G. Zhou, W. Hu, J. Luo, X. Liu, and H. Ian, “Enhanced least significant qubit watermarking scheme for quantum images,” Quan. Inf. Proc. 17, 299 (2018).

21. R.-G. Zhou, C. Qian, and H. Ian, “Bidirectional Quantum Teleportation of Two-Qubit State Via Four-Qubit Cluster State,” Int. J. Theo. Phys. 58, 150 (2018).

22. R.-G. Zhou, P. L. Yang, X. A. Liu, and H. Ian, “Quantum color image watermarking based on fast bit-plane scramble and dual embedded,” Int. J. Quan. Inform. 16, 1850060 (2018).

23. R.-G. Zhou, W. W. Hu, G. F. Luo, P. Fan, and H. Ian, “Optimal LSBs-based quantum watermarking with lower distortion,” Int. J. Quant. Inform. 16, 1850058 (2018).

24. R.-G. Zhou, X. Liu, C. Zhu, L. Wei, X. Zhang, and H. Ian, “Similarity analysis between quantum images,” Quan. Inf. Proc. 17, 121 (2018).

25. Z.-S. Liu, O. Ciftja, X. Zhang, Y. Zhou, and H. Ian, “Vortical structures for nanomagnetic memory induced by dipole-dipole interaction in monolayer disks,” Superlattices and Microstructures 117, 495 (2018).

26. J.-H. Ding, S. Huai, H. Ian, and Y. Liu, “Vacuum induced transparency and photon number resolved Autler-Townes splitting in a three-level system,” Sci. Rep. 8, 4507 (2018).

27. Z.-S. Liu and H. Ian, “Theoretical Studies on Magnetic Structures, Hysteresis Loops and Size Effects of a Pair of Frustrated Double-Walled Nanotubes,” J. Supercond. Nov. Magn. 31, 2411 (2018).

28. P. Y. Wen, A. F. Kockum, H. Ian, J. C. Chen, F. Nori, and I.-C. Hoi, “Reflective amplification without population inversion from a strongly driven superconducting qubit” Phys. Rev. Lett. 120, 063603 (2018).

29. R.-G. Zhou, Y. Zhou, C. Zhu, L. Wei, X. Zhang, and H. Ian, “Quantum Watermarking Scheme Based on INEQR,” Int. J. Theo. Phys. 57, 1120 (2018).

30. Z.-S. Liu, O. Ciftja, and H. Ian, “Interplay of Dzyaloshinsky-Moriya and Diploe-Dipole Interactions and Their Joint Effects upon Vortical Structures on Nanodisks,” Physica E 90, 13 (2017).

31. H. Ian and Yu-xi Liu, “Superfluorescence in a quasi-lattice of qubits,” in progress.

32. Y. Zhang, H. Ian, K. Tam, and F. Nori, “Quasi-two level system from a dressed superconducting flux qubit,” to be published.

33. S. M. Yu, Y. B. Gao, and H. Ian, “Perturbative dissipation dynamics of a weakly driven Jaynes-Cummings system” Quantum Inf. Process. 16, 283 (2017).

34. R.-G. Zhou, W. Hu, P. Fan, and H. Ian, “Quantum realization of the bilinear interpolation method for NEQR,” Sci. Rep. 7, 2511 (2017)

35. H. Ian, “Stability branching induced by collective atomic recoil in optomechanical ring cavity,” New J. Phys. 19, 023052 (2017).

36. Z.-S. Liu, R.-G. Zhou, and H. Ian, “A Self-Consistent Approach Applied to the Ferro and Antiferro-Magnetism of Nanotubes,” J. Supercond. Nov. Magn. 30, 2523 (2017).

37. R.-G. Zhou, C.-Y. Tan, and H. Ian, “Global and local translation designs of quantum image based on FRQI,” Int. J. Theo. Phys. 56, 1382 (2017).

38. Z.-S. Liu and H. Ian, “Duality of two pairs of double-walled nanotubes consisting of S=1 and S=3/2 spins probed by means of a quantum simulation approach,” Physica E 85, 82 (2017)

39. Z.-S. Liu and H. Ian, “Verification of a New Quantum Simulation Approach through Its Application to Heisenberg-Like Models” Acta Physica Polonica A 129, 1210 (2016).

40. H. Ian, “Quasi-lattice chains and multipartite entanglement in a cavity,” Europhys. Lett. 114, 50005 (2016).

41. Z.-S. Liu and H. Ian, “Numerical studies on antiferromagnetic skyrmions in nanodisks by means of a new quantum simulation approach,” Chem. Phys. Lett. 649, 135 (2016).

42. Z.-S. Liu and H. Ian, “Effects of Dzyaloshinsky–Moriya interaction on magnetism in nanodisks from a self-consistent approach,” J. Nanopart. Res. 18, 9 (2016).

43. Z.-S. Liu and H. Ian, “Effects of external magnetic field and magnetic anisotropy on chiral spin structures of square nanodisks investigated with a quantum simulation approach,” Superlattices and Microstructures 92, 174 (2016).

44. T.-T. Huan, R.-G. Zhou, and H. Ian, “Dynamic entanglement transfer in a double-cavity optomechanical system,” Phys. Rev. A 92, 022301 (2015).

45. H. Ian, “Thermodynamic cycle in a cavity optomechanical system,” J. Phys. B: At. Mol. Opt. Phys. 47, 135502 (2014).

46. H.-C. Sun, Y. Liu, H. Ian, J. Q. You, E. Il’ichev, and F. Nori, “Electromagnetically induced transparency and Autler-Townes splitting in superconducting flux quantum circuits,” Phys. Rev. A 89, 063822 (2014).

47. H.-S. Li, Q. Zhu, R.-G. Zhou, M.-C. Li, Lan Song, and H. Ian, “Multidimensional color image storage, retrieval, and compression based on quantum amplitudes and phases,” Information Sciences 273, 212 (2014).

48. H. Ian and Yu-xi Liu, “Cavity polariton in a quasi-lattice of qubits and its selective radiation,”

Phys. Rev. A 89, 043804 (2014).

49. H. Ian, Yu-xi Liu, and F. Nori, “Excitation spectrum for an inhomogeneously dipole-field-coupled superconducting spin chain,” Phys. Rev. A 85, 053833 (2012).

50. D. Z. Xu, H. Ian, T. Shi, H. Dong, and C. P. Sun, “Photonic Feshbach Resonance,” Sci. China Ser. G: 53, 1234 (2010).

51. H. Ian, Yu-xi Liu, and F. Nori, “Tunable electromagnetically induced transparency and absorption with dressed superconducting qubits,” Phys. Rev. A 81, 063823 (2010).

52. Z. R. Gong, H. Ian, Yu-xi Liu, C. P. Sun, and Franco Nori, “Effective Hamiltonian approach to the Kerr nonlinearity in an optomechanical system,” Phys. Rev. A 80, 065801 (2009).

53. Y. Chang, H. Ian and C. P. Sun, “Triple coupling and parameter resonance in quantum optomechanics with a single atom,” J. Phys. B: At. Mol. Opt. Phys. 42, 215502 (2009).

54. H. Dong, Z. R. Gong, H. Ian, Lan Zhou, and C. P. Sun, “Intrinsic Cavity QED and Emergent Quasi-Normal Modes for Single Photon,” Phys. Rev. A 79, 063847 (2009).

55. Z. R. Gong, H. Ian, Lan Zhou, and C. P. Sun, “Controlling Quasibound States in 1D Continuum Through Electromagnetic Induced Transparency Mechanism,” Phys. Rev. A 78, 053806 (2008).

56. H. Ian, Z. R. Gong, Yu-xi Liu, C. P. Sun, and Franco Nori, “Cavity optomechanical coupling assisted by an atomic gas,” Phys. Rev. A 78, 013824 (2008).

57. H. Ian, Z. R. Gong, and C. P. Sun, “Noise suppression for micromechanical resonator via intrinsic dynamic feedback,” Front. Phys. 3, 294 (2008).

 

Invited talks and conference presentations

58. H. Ian, “Controlling qubit decoherence through solitary pulses,” 10th International Workshop of Solid-state Quantum Computation, City University of Hong Kong (2021)

59. H. Ian, “Ramsey-biased spectroscopy of a transmon qubit,” SUSTech (2020-05-19)

60. H. Ian, “Multiphoton processes on superconducting qubit circuits,” Keynote speech, Joint Annual Conference of Physical Societies in Guangdong-Hong Kong-Macau Greater Bay Area (2018)

61. H. Ian, “Effects of synchronicity on multi-partite entanglement” Annual Meeting of Chinese Physics Society, Beijing, China (2016)

62. Y. Zhang, H. Ian, and K. Tam, “Multi-band coupling analysis for superconducting qubits based on coplanar cross-shape resonators,” IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization for RF, Microwave and Terahertz Applications, WE6-4 (159) (2016)

63. T. T. Huan and H. Ian “Two-qubit cooperativity and synchronicity in a superconducting circuit,” the 19th conference of the physical society of Hong Kong, Hong Kong (2016)

64. H. Ian and T.-T. Huan, “Entanglement evolution in a double-cavity optomechanical system,” Annual Meeting of Chinese Physics Society, Changchun, China (2015)

65. H. Ian, “Thermal energy transfer via phonon blockade in an optomechanical cavity,” Annual Meeting of Chinese Physics Society, Harbin, China (2014)

66. H. Ian, “Quantum information processing with quasi-lattices of superconducting qubits,” 14th Asian Quantum Information Science Conference (AQIS14), Kyoto, Japan (2014)

67. H. Ian, “Thermodynamic cycle in a cavity optomechanical system,” 8th Joint Meeting of Chinese Physicists Worldwide (OCPA8), Singapore (2014)

68. H. Ian and Yu-xi Liu, “Quasi-lattice of qubits and its mesoscopic features,” American Physical Society March Meeting, Vol. 59, No. 1, D35.00006 (2014)

69. H. Ian and Yu-xi Liu, “Mesoscopic characteristics of a quasi-lattice of qubits,” 6th International Workshop of Solid-state Quantum Computation, Beijing, China (2013)

70. H. Ian, “Simultaneous generation of inequivalent types of multipartite entanglement among qubits in a circuit quantum electrodynamic system,” 2013 Annual Meeting of Chinese Physical Society, Xiamen University, Xiamen, China (2013)

71. H. Ian, “Collective excitations on inhomogeneously coupled superconducting qubit chain,” National advanced seminar on quantum control and quantum coherent devices, Rizhao, Shandong, China (2012)

72. H. Ian, Yu-xi Liu, and F. Nori, “Coherent optical excitations in superconducting qubit chain,” 43rd DAMOP Conference of the American Physical Society, Annaheim, CA, U.S.A. (2012)

73. H. Ian, “The extra degree of freedom: the inhomogeneously superconducting qubit chain,” 5th International Workshop of Solid-state Quantum Computation, Chinese University of Hong Kong, Hong Kong (2011)

74. H. Ian, “Tunable transitions and electromagnetically induced transparency,” National advanced seminar on quantum control and quantum coherent devices, Guangzhou, China (2010).

75. H. Ian, Yu-xi Liu, and F. Nori, “Tunable electromagnetic induced transparency and absorption with dressed superconducting qubits,” International conference on quantum information and technology, NII, Tokyo, Japan (2009).

76. H. Ian, “Cavity optomechanical systems,” National advanced seminar on quantum control and quantum coherent devices, Yangzhou, China (2008).

Patents

H. Ian, Y. Zhang, K. Tam, “Cross-shape multi-band coplanar superconducting resonators for scalable quantum logic operations,” U.S. patent US 2019/0034819A1

Other publications on education

1. H. Ian, “Encouraging learning II,” Macau Education, Issue 4 (2011)

2. H. Ian, “Encouraging learning I,” Macau Education, Issue 3 (2011)

3. H. Ian, “Scientific thoughts and artistic thoughts,” Macau Education, Issue2, p.40 (2011)