Ming Gong

Category
Email
Minggong@happyjiayi.com
Address
No.99 Xiupu Road, Pudong District, Shanghai, China
Introduction

Ming Gong was born in Zhangjiagang, Jiangsu province in 1989. He got his bachelor degree from Nanjing University in 2011. He obtained the Ph. D from Nanjing University in 2016. His research interest is focused on superconducting quantum computation and quantum simulation.

Related Publications

  • Cao, S., Wu, B., Chen, F., Gong, M., Wu, Y., Ye, Y., Zha, C., Qian, H., Ying, C., Guo, S., Zhu, Q., Huang, H. -L., Zhao, Y., Li, S., Wang, S., Yu, J., Fan, D., Wu, D., Su, H., Deng, H., Rong, H., Li, Y., Zhang, K., Chung, T. -H., Liang, F., Lin, J., Xu, Y., Sun, L., Guo, C., Li, N., huo, Y. -heng, Peng, C. -Z., Lu, C. -Y., Yuan, X., Zhu, X. & Pan, J. -W. Generation of genuine entanglement up to 51 superconducting qubits. Nature (2023). doi:10.1038/s41586-023-06195-1
  • Zhao, Y. -wei, Ye, Y., Huang, H. -L., Zhang, Y., Wu, D., Guan, H., Zhu, Q., Wei, Z., He, T., Cao, S., Chen, F., Chung, T. -H., Deng, H., Fan, D., Gong, M., Guo, C., Guo, S., Han, L., Li, N., Li, S., Li, Y., Liang, F., Lin, J., Qian, H., Rong, H., Su, H., Sun, L., Wang, S., Wu, Y., Xu, Y., Ying, C., Yu, J., Zha, C., Zhang, K., huo, Y. -heng, Lu, C. -Y., Peng, C. -Z., Zhu, X. & Pan, J. -W. Realization of an Error-Correcting Surface Code with Superconducting Qubits. Physical Review Letters 129, 030501 (2022).
  • Zhu, Q., Cao, S. -R., Chen, F., Chen, M. -C., Chen, X., Chung, T. -H., Deng, H., Du, Y., Fan, D., Gong, M., Guo, C., Guo, C., Guo, S., Han, L., Hong, L., Huang, H. -L., Huo, Y. -H., Li, L., Li, N., Li, S., Li, Y., Liang, F., Lin, C., Lin, J., Qian, H., Qiao, D., Rong, H., Su, H., Sun, L., Wang, L., Wang, S., Wu, D., Wu, Y., Xu, Y., Yan, K., Yang, W., Yang, Y., Ye, Y., Yin, J., Ying, C., Le Yu, J. -, Zha, C., Zhang, C., Zhang, H., Zhang, K., Zhang, Y., Zhao, H., Zhao, Y., Zhou, L., Lu, C. -Y., Peng, C. -Z., Zhu, X. & Pan, J. -W. Quantum computational advantage via 60-qubit 24-cycle random circuit sampling. Science Bulletin (2021). doi:10.1016/j.scib.2021.10.017
  • Wu, Y. -L., Bao, W. -S., Cao, S. -R., Chen, F., Chen, M. -C., Chen, X., Chung, T. -H., Deng, H., Du, Y., Fan, D., Gong, M., Guo, C., Guo, C., Guo, S., Han, L., Hong, L., Huang, H. -L., huo, Y. -heng, Li, L., Li, N., Li, S., Li, Y., Liang, F., Lin, C., Lin, J., Qian, H., Qiao, D., Rong, H., Su, H., Sun, L., Wang, L., Wang, S., Wu, D., Xu, Y., Yan, K., Yang, W., Yang, Y., Ye, Y., Yin, J., Ying, C., Le Yu, J. -, Zha, C., Zhang, C., Zhang, H., Zhang, K., Zhang, Y., Zhao, H., Zhao, Y., Zhou, L., Zhu, Q., Lu, C. -Y., Peng, C. -Z., Zhu, X. & Pan, J. -W. Strong quantum computational advantage using a superconducting quantum processor. Physical Review Letters 127, 180501 (2021).
  • Ye, Y., Cao, S. -R., Wu, Y., Chen, X., Zhu, Q., Li, S., Chen, F., Gong, M., Zha, C., Huang, H. -L., Zhao, Y., Wang, S., Guo, S., Qian, H., Liang, F., Lin, J., Xu, Y., Guo, C., Sun, L., Li, N., Deng, H., Zhu, X. & Pan, J. -W. Realization of High-Fidelity Controlled-Phase Gates in Extensible Superconducting Qubits Design with a Tunable Coupler. Chinese Physics Letters 38, 100301 (2021).
  • Huang, H. -L., Du, Y., Gong, M., Zhao, Y., Wu, Y., Wang, C., Li, S., Liang, F., Lin, J., Xu, Y., Yang, R., Liu, T., Hsieh, M. -H., Deng, H., Rong, H., Peng, C. -Z., Lu, C. -Y., Chen, Y. -A., Tao, D., Zhu, X. & Pan, J. -W. Experimental Quantum Generative Adversarial Networks for Image Generation. Physical Review Applied 16, 1-20 (2021).
  • Gong, M., Neto, G. D. de M., Zha, C., Wu, Y., Rong, H., Ye, Y., Li, S., Zhu, Q., Wang, S., Zhao, Y., Liang, F., Lin, J., Xu, Y., Peng, C. -Z., Deng, H., Bayat, A., Zhu, X. & Pan, J. -W. Experimental characterization of the quantum many-body localization transition. Physical Review Research 3, 1-14 (2021).
  • Chen, F., Sun, Z. -H., Gong, M., Zhu, Q., Zhang, Y. -R., Wu, Y., Ye, Y., Zha, C., Li, S., Guo, S., Qian, H., Huang, H. -L., Le Yu, J. -, Deng, H., Rong, H., Lin, J., Xu, Y., Sun, L., Guo, C., Li, N., Liang, F., Peng, C. -Z., Fan, H., Zhu, X. & Pan, J. -W. Observation of Strong and Weak Thermalization in a Superconducting Quantum Processor. Physical Review Letters 127, 25-27 (2021).
  • Gong, M., Wang, S., Zha, C., Chen, M. -C., Huang, H. -L., Wu, Y., Zhu, Q., Zhao, Y., Li, S., Guo, S., Qian, H. -R., Ye, Y. -S., Chen, F. -S., Ying, C., Le Yu, J. -, Fan, D. -J., Wu, D. -C., Su, H., Deng, H., Rong, H., Zhang, K., Cao, S. -R., Lin, J., Xu, Y., Sun, L. -H., Guo, C., Li, N., Liang, F., Bastidas, V. M., Nemoto, K., Munro, W. J., huo, Y. -heng, Lu, C. -Y., Peng, C. -Z., Zhu, X. & Pan, J. -W. Quantum walks on a programmable two-dimensional 62-qubit superconducting processor. Science 372, 948-952 (2021).
  • Huang, H. -L., Narożniak, M., Liang, F., Zhao, Y., Castellano, A., Gong, M., Wu, Y., Wang, S., Lin, J., Xu, Y., Deng, H., Rong, H., Dowling, J., Peng, C. -Z., Byrnes, T., Zhu, X. & Pan, J. -W. Emulating Quantum Teleportation of a Majorana Zero Mode Qubit. Physical Review Letters 126, 1-7 (2021).
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