The Jiang Group investigates quantum control and quantum error correction to protect quantum information from decoherence for various physical platforms, with potential applications for quantum sensing, quantum transduction, quantum communication, and quantum computation.
The Jiang Group is recruiting graduate students and postdoctoral scholars.
Principal Investigator
Liang Jiang theoretically investigates quantum systems and explores various quantum applications, such as quantum sensing, quantum transduction, quantum communication, and quantum computation. His research focuses on using quantum control and error correction to protect quantum information from decoherence to realize robust quantum information processing. He has worked on modular quantum computation, global-scale quantum networks, room-temperature nano-magnetometer, sub-wavelength imaging, micro-optical quantum transduction, and error-correction-assisted quantum sensing and simulation.
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Debayan Bandyopadhyay
Graduate Student -
Ron Belyansky
Postdoctoral Associate -
Senrui Chen
Graduate Student -
Yuexun (Yesun) Huang
Graduate Student -
Gideon Lee
Graduate Student -
Su-un Lee
Graduate Student -
Bikun Li
Postdoctoral Associate -
Fangxin (Sam) Li
Graduate Student -
Junyu Liu
Postdoctoral Associate -
Mikhail Mamaev
Postdoctoral Associate -
Nam Mannucci
Graduate Student
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Xuanhui (Mona) Mao
Undergraduate Student -
Rohan Mehta
Undergraduate Student -
Changhun Oh
Postdoctoral Associate -
Zhaoyou Wang
Postdoctoral Associate -
Yat Wong
Graduate Student -
Qian Xu
Graduate Student -
Ming Yuan
Graduate Student -
Pei Zeng
Postdoctoral Associate -
Mengzhen Zhang
Postdoctoral Associate -
Guo (Jerry) Zheng
Graduate Student -
Han Zheng
Graduate Student
Coherent optical nanotweezers for ultracold atoms
P. Bienias, S. Subhankar, Y. Wang, T-C. Tsui, F. Jendrzejewski, T. Tiecke, G. Juzeliūnas, L. Jiang, S. L. Rolston, J. V. Porto, and A. V. Gorshkov, Phys. Rev. A 102, 013306 (2020).
Optimal probes and error-correction schemes in multi-parameter quantum metrology
W. Górecki, S. Zhou, L. Jiang and R.Demkowicz-Dobrzański, Quantum 4, 288 (2020).
Cavity piezo-mechanics for superconducting-nanophotonic quantum interface
X. Han, W. Fu, C. Zong, C.-L. Zou, Y. Xu, A. Al Sayem, M. Xu, S. Wang, R. Cheng, L. Jiang, H. X. Tang, Nat. Commun. 11, 3237 (2020).
Efficient Multiphoton Sampling of Molecular Vibronic Spectra on a Superconducting Bosonic Processor
C. S. Wang, J. C. Curtis, B. J. Lester, Y. Zhang, Y. Y. Gao, J. Freeze, V. S. Batista, P. H. Vaccaro, I. L. Chuang, L. Frunzio, L. Jiang, S. M. Girvin, and R. J. Schoelkopf, Phys. Rev. X 10, 021060 (2020).
Error-corrected gates on an encoded qubit
P. Reinhold, S. Rosenblum, W. L. Ma, L. Frunzio, L. Jiang, R. J. Schoelkopf, Nat. Phys. (2020).
New perspectives on covariant quantum error correction
S. Zhou, Z.-W. Liu and L. Jiang, arXiv:2005.11918 (2020).
Perfect coherent transfer in an on-chip reconfigurable nanoelectromechanical network
T. Tian, S. Lin, L Zhang, P. Yin, P. Huang, C. Duan, L. Jiang, and J. Du, Phys. Rev. B 101, 174303 (2020).
Efficient cavity control with SNAP gates
T. Fösel, S. Krastanov, F. Marquardt, and L. Jiang, arXiv:2004.14256 (2020).
Error-detected state transfer and entanglement in a superconducting quantum network
L. D. Burkhart, J. Teoh, Y. Zhang, C. J. Axline, L. Frunzio, M. H. Devoret, L. Jiang, S. M. Girvin, R. J. Schoelkopf, arXiv:2004.06168 (2020).
Sub-Hertz resonance by weak measurement
W. Qu, S. Jin, J. Sun, L. Jiang, J. Wen and Y. Xiao, Nat. Commun. 11, 1752 (2020).
