Publications
Publications
Assistant Professor (Teaching)
Quantum Communication, Quantum sensing, Quantum Control, Optical Fiber Communication and Sensing
[2] Y. Wang, S. Xue, H. Song, M, Jiang, Robust quantum teleportation via a non-Markovian channel, 108, 062406, 2023 [SCI]
[3] H. Song, G. Zhang, X. Wang, H. Yonezawa and K. Fan, Amplification of optical Schrödinger cat states with an implementation protocol based on frequency comb, Physical Review A, 105, 043713, 2022 [SCI]
[4] H. Li, M. Xu, H. Song, A. Zhou, a High-sensitivity air pressure sensor with short desorbing time, Optics and Lasers Technology, 158, 108855, 2023 [SCI,]
[5] J. Li, M. Xu, J. Liu, H. Li, H. Song, A. Zhou, Theoretical analysis of a highly sensitive SPR temperature sensor based on Ag/TiO2 hyperbolic metamaterials and PDMS film, Optics and Lasers Technology,156, 108610, 2022 [SCI]
[6] K. B. Kuntz, T. A. Wheatley, H. Song, J. G. Webb, M. A. Mabrok, E. H. Huntington, and H. Yonezawa Ultra-wide frequency response measurement of an optical system with a DC photo-detector, Optics Express, 25, 573- 586, 2017 [SCI]
[7] D. Schutte, S. Z. Hassen, K. S. Karvinen, T. K. Boyson, A. G. Kallapur, H. Song, I. R. Petersen, E. H. Huntington, and M. Heurs, Experimental demonstration of frequency autolocking an optical cavity using a time- varying Kalman Filter, Physical Review Applied, 5, 014005, 2016 [SCI]
[8] H. Song, H. Yonezawa, K. B. Kuntz, M. Heurs, and E. H. Huntington, Quantum teleportation in space and frequency based on a comb of entanglement, Physical Review A, 90, 042337, 2014 [SCI]
[9] I. Tomita, T. Umeki, O. Tadanaga, H. Song, M. Asobe, and H. Takenouchi, Properties of power dependence on low-crosstalk waveband conversion with an apodized multiperiod-QPMLiNbO3, Optics Express, 22, 15232, 2014 [SCI]
[10] A. G. Kallapur, D. Schutte, I. R. Petersen, T. K. Boyson, E. Huntington, S. Z. Sayed Hassen, H. Song, and M. Heurs, Design and implementation of an optical cavity locking controller test bed system, IEEE Transactions on Control Systems Technology, 99, 1, 2014 [SCI]
[11] H. Song, K. B. Kuntz, E. H. Huntington, Limitations on the quantum non- Gaussian characteristic of Schrödinger kitten state generation, New Journal of Physics, 15, 023042, 2013 [SCI]
[12] H. Song, O. Tadanaga, T. Umeki, I. Tomita, M. Asobe, S. Yamamoto, K. Mori, and K. Yonenaga, Phase-transparent flexible waveband conversion of 43 Gb/s RZ-DQPSK signals using multiple-QPM-LN waveguides, Optics Express,18, 15332-15337, 2010 [SCI]
[13] I.Tomita, T. Umeki, O. Tadanaga, H. Song, and M. Asobe, Apodized multiple quasi-phase-matched LiNbO3 device. Optics Letters, 35, 805-807, 2010 [SCI]
[14] H. Song, T. Yanagawa, O. Tadanaga, K. Magari, M. Asobe, H. Ishii, and H. Oohashi, Compact and tunable mid- infrared laser using QPM-LN waveg- uide and TLA, Electronics Letters, 45, 977-978, 2009 [SCI]
[15] H. Song, O. Tadanaga, T. Umeki, I. Tomita, H. Ishii, H. Oohashi, M. Asobe, High-quality grouped-wavelength conversion and dynamic switching using multiple-QPM LiNbO3 and TLA, IEEE Photonics Technology Letters, 21, 854-856, 2009 [SCI]
[16] K. Nonaka, H. Mizuno, H. Song, Low-time-jitter short-pulse generator using compact gain-switching laser diode module with optical feedback fibre line, Japanese Journal Applied Physics, 27, 6754-6756, 2008 [SCI]
[17] H. Song, T. Suzuki, T. Fujimura, K. Nonaka, T. Shioda and T. Kurokawa, Polarization fluctuation suppression and sensitivity enhancement of an optical correlation sensing system, Measurement Science and Technology, 18, 3230-3234, 2007 [SCI]
[18] H. Song, T. Suzuki, M. Sako and K. Nonaka, High time resolution fibre optic sensing system based on correlation and differential technique, Measurement Science and Technology, 17, 631-634, 2006 [SCI]
[19] H. Song*, H. Huang, H. Liu, A. Zhou, G. Zhang, and Y. Hidehiro, Quantum entanglement based on two-photon joint subtraction from two-mode squeezed vacuum states, the 29th Opto-Electronics and Communications Conference 2024 (OECC2024), Melburn, June30-July 4, 2024. Corresponding author, EI (Publisher: IEEE)
[20] H. Hung, H. Song*, H. Wu, L. Liang, C. Wang, C. Zhang, A. Zhou, Photon statistics of non-Gaussian entanglement based on two-mode squeezed vacuum states, The 14th International Conference on Information Optics and Photonics, Corresponding author
[21] H. Song, G. Zhang, X. Wang, and H. Yonezawa, Entanglement generation with Schrödinger’s kitten states, 2022 Asia Communications and Photonics Conference (ACP2022), Shenzhen, China, 2135-2136, 2022 Corresponding author, EI (Publisher: IEEE)
[22] H. Song, Development of general education course on quantum information science, Proceedings of the IUPAP International Conference on Physics Education, ICPE 2022, December 5-9, 2022, page 155 Corresponding author
[23] H. Song, and G. Zhang, Characteristics of non-Gaussian entanglement, The 3rd Optical Quantum Science and Technology Conference, July 7-9, 2023, Taiyuan, Shanxi
[24] H. Song, G. Zhang, H. Yonezawa, Strong entanglement generation, protocol based on non-Gaussian states, Laser Technology and Optoelectronics Conference 2023 (LTO2023), June 10-13, 2023, Shanghai
[25] H. Song, Development of general education course on quantum information science, The International Conference on Physics Education, Sydney, Australia, December 5-8 2022
[26] H. Song, Pedagogical research on quantum mechanics for non-physics majored undergraduates, The Autumn Conference of Chinese Physical Society, November 17-20, 2022
[27] H. Song, G. Zhang, X. Wang, and H. Yonezawa, Entanglement generation with Schrödinger’s kitten states, 2022 Asia Communications and Photonics Conference (ACP2022), Shenzhen, China, Nov.5-8, 2022
[28] H. Song, G. Zhang, X. Wang, K. Fan, Protocol for Parity-preserved Optical Schrödinger Cat State Amplification, The 5th Optics Young Scientist Summit (OYSS2022), Fuzhou, September 16-19, 2022
[29] H. Song, G. Zhang, X. Wang, Amplification of Schrödinger’s Cat States Based on Conditional Measurement, Pre-conference Workshop/The 3rd International Workshop on Quantum Cybernetics and Machine Learning, Nanjing, Jiang Su, October, 2021
[30] H. Song, Continuous-variable quantum teleportation based on quantum frequency comb, The 7th National Quantum Control Symposium, Nanjing, July 5-6, 2019
[31] L. Jiang, T. Lo, H. Song, Teaching in Dialogue with Nature (UGFN) in CUHK, Shenzhen, General Education Teacher and Student Conference, Hong Kong, Dec. 2018
[32] K. B. Kuntz, H. Song, J. Webb, T. Wheatley, A. Furusawa, T. Ralph, E. Huntington, Quantum non-Gaussian and Gaussian States at Multiple Side- band Frequencies, CLEO: 2014, FTh3A.3 San Jose (USA), June 2014
[33] O. Rehman, I. R. Peterson, H. Song, E. H. Huntington, Robust nonlinear estimation of varying optical phase, European Control conference (ECC) 2013, 4190-4195 Zurich (Switzerland), July 2013
[34] A. G. Kallapur, D. Schutte, I. R. Petersen, T. K. Boyson, E. Huntington, S. Z. Sayed Hassen, H. Song, M. Heurs. Digital Locking of a Three-Mirror Ring Cavity, IEEE International Conference on Control Applications (CCA), 794-799, Dubrovnik, Croatia, October 2012
[35] H. Song, O. Tadanaga, T. Umeki, I. Tomita, M. Asobe, S. Yamamoto, K. Mori, and K. Yonenaga, Flexible and transparent waveband conver- sion using Multiple-QPM LiNbO3 waveguides. 36th European Conference and Exhibition on Optical Communication (ECOC), We.6.E.3, Turin (Italy), September 2010
[36] M. Asobe, T. Umeki, O. Tadanaga, H. Song, I. Tomita, and K. Magari, QPM wavelength conversion using engineered LiNbO3 waveguides, CLEO/QELS2010, California, (USA), May 2010
[37] H. Song, O. Tadanaga, T. Umeki, I. Tomita, H. Ishii, H. Oohashi, M. Asobe, Dynamic grouped-wavelength conversion using multiple-QPM LiNbO3 mod- ule and TLA, OFC: 2009 Conference on Optical Fiber Communication, OThG6, San Diego (USA), March 2009
[38] M. Asobe, T. Umeki, O. Tadanaga, H. Song, I. Tomita, Grouped wavelength conversion using engineered QPM device, The 8th Pacific Rim Conference on Lasers and Electro-Optics, CLEO - Technical Digest, 2009
[39] X. Xu, K. Nonaka, and H. Song. Fibre optic wide region temperature sensing system, Proceedings of SPIE - The International Society for Optical Engineering, 7278, 2009
[40] H. Song, and K. Nonaka. A novel strain sensor based on optical correlation measurement, The 1st International Conference of Smart Material and Nano Technology, Harbin(China), July 2007
[41] H. Song, T. Suzuki and K. Nonaka. Polarization stabilized optical fibre sensor with high time resolution based on optical pulse correlation and FRR, the 18th International Conference on Optical Fibre Sensor(OFS),ThE17, Cancun, (Mexico), October 2006
Patent:
I. Tomita, T. Umeki, O. Tadanaga, H. Song, and M. Asobe. Wavelength converter, JP2011257559A, 2011.12.22