Yu-Ming He

Email
yuminghe@mail.ustc.edu.cn
Address
Hefei National Laboratory for Physical Science at the Microscale, University of Science & Technology of China, 96 Jin Zhai Rd., Hefei,230026, Anhui, China
Introduction

Yu-Ming He received his PhD from University of Science and Technology of China in 2014. After that, he took the Postdoctor position at the University of Wuerzburg. In 2016, he joined Professor Jian-Wei Pan’s research team. His research interests include semiconductor quantum dot single photon source and TMDs(Transition Metal Dichalcogenides) quantum physics. He has published more than 15 articles (10 as c in journal including Nature Nanotechnology, Nature Communications, Physics Review Letter, Nano Letter and Optica. He is awarded Outstanding Doctoral Dissertation of China Academic of Sciences in 2016.

Related Publications

  • Wang, H., Qin, J., Ding, X., Chen, M. -C., Chen, S., You, X., He, Y. -M., Jiang, X., You, L., Wang, Z., Schneider, C., Renema, J., Sven, ofling, Lu, C. -Y. & Pan, J. -W. Boson Sampling with 20 Input Photons and a 60-Mode Interferometer in a 1014 -Dimensional Hilbert Space. Physical Review Letters 123, 250503 (2019).
  • He, Y. -M., Wang, H., Wang, C., Chen, M., Ding, X., Qin, J., Duan, Z., Chen, S., Li, J., Liu, R. -ze, Schneider, C., Mete, A. ure, Sven, ofling & Lu, C. -Y. Coherently driving a single quantum two-level system with dichromatic laser pulses. Nature Physics (2019).
  • Deng, Y. -hao, Wang, H., Ding, X., Duan, Z., Qin, J., Chen, M., He, Y., He, Y. -M., Li, J. -P., Li, Y. -H., Peng, L. -C., Matekole, E., Byrnes, T., Schneider, C., Kamp, M., Wang, D. -W., Dowling, J., Sven, ofling, Lu, C. -Y., Scully, M. & Pan, J. -W. Quantum Interference between Light Sources Separated by 150 Million Kilometers. PHYSICAL REVIEW LETTERS 080401, 1-7 (2019).
  • Wang, H., He, Y. -M., Chung, T., Hu, H., Yu, Y., Chen, S., Ding, X., Chen, M., Qin, J., Yang, X., Liu, R. -ze, Duan, Z., Li, J., Gerhardt, S., Winkler, K., Jurkat, J., Wang, L. -jun, Gregersen, N., Huo, Y. -H., Dai, Q., Yu, S., Sven, ofling, Lu, C. -Y. & Pan, J. -W. Towards optimal single-photon sources from polarized microcavities. Nature Photonics (2019). doi:10.1038/s41566-019-0494-3
  • Zhong, H. -S., Li, Y., Li, W., Peng, L. -C., Su, Z. -E., Hu, Y., He, Y. -M., Ding, X., Zhang, W., Li, H., Zhang, L., Wang, Z., You, L., Wang, X. -L., Jiang, X., Li, L., Chen, Y. -A., Liu, N. -L., Lu, C. -Y. & Pan, J. -W. 12-Photon Entanglement and Scalable Scattershot Boson Sampling with Optimal Entangled-Photon Pairs from Parametric Down-Conversion. Physical Review Letters 121, 250505 (2018).
  • Wang, H., He, Y. -M., Li, Y. -H., Su, Z. -E., Li, B., Huang, H. -L., Ding, X., Chen, M. -C., Liu, C., Qin, J., Li, J. -P., He, Y. -M., Schneider, C., Kamp, M., Peng, C. -Z., ofling, S., Lu, C. -Y. & Pan, J. -W. High-efficiency multiphoton boson sampling. Nature Photonics 1-5 (2017). doi:10.1038/nphoton.2017.63
  • Wang, H., He, Y. -M., Li, Y. -H., Su, Z. -E., Li, B., Huang, H. -L., Ding, X., Chen, M. -C., Liu, C., Qin, J., Li, J. -P., He, Y. -M., Schneider, C., Kamp, M., Peng, C. -Z., ofling, S., Lu, C. -Y. & Pan, J. -W. High-efficiency multiphoton boson sampling. Nature Photonics 1-5 (2017). doi:10.1038/nphoton.2017.63
  • He, Y., He, Y. -M., Wei, Y. -J., Jiang, X., Chen, K., Lu, C. -Y., Pan, J. -W., Schneider, C., Kamp, M. & Hofling, S. Quantum State Transfer from a Single Photon to a Distant Quantum-Dot Electron Spin. Physical Review Letters 119, 060501 (2017).
  • He, Y., Ding, X., Su, Z. -E., Huang, H. -L., Qin, J., Wang, C., Unsleber, S., Chen, C., Wang, H., He, Y. -M., Wang, X. -L., Zhang, W., Chen, S. -J., Schneider, C., Kamp, M., You, L., Wang, Z., Hofling, S., Lu, C. -Y. & Pan, J. -W. Time-Bin-Encoded Boson Sampling with a Single-Photon Device. Physical Review Letters 118, 190501 (2017).
  • Unsleber, S., He, Y. -M., Gerhardt, S., Maier, S., Lu, C. -Y., Pan, J. -W., Gregersen, N., Kamp, M., Schneider, C. & Hoefling, S. Highly indistinguishable on-demand resonance fluorescence photons from a deterministic quantum dot micropillar device with 74\% extraction efficiency. Optics Express 24, 8539-8546 (2016).