Ting Yu

My research interests are in quantum information science, quantum physics and quantum technology including: Entanglement and decoherence of quantum nanodevices such as quantum dots and superconducting qubits Continuous quantum measurement and quantum feedback control Entanglement and its applications in quantum metrology and precision detection technology Quantum coherence dynamics of atomic, molecular and optical systems Theoretical modeling and simulation of complex quantum systems Non-Markovian quantum open systems and quantum trajectories Quantum phase transition, topological order and quantum topological computationEntanglement of many-body systems and quantum fields.

• Department Chair Chair
• Physics Department Chair Chair
• Physics Department Graduate Program Member

• Scientific Reports Editorial member
• journals and funding agencies referee or reviewer
• Stevens Institute of Technology conference chair

• OSA – Optical Society of America Member
• APS – American Physical Society Member

PI, USA NSF grant (Funded since 2008), Theory of Quantum Dynamics of AMO SystemsPI, USA DARPA grant (Funded since 2009)

1. Luo, D. W.; Yu, T. (2019). Memory-induced geometric phase in non-Markovian quantum open systems. Proceedings Rochester Conference on Coherence and Quantum Optics, CQO 2019.

1. Chatterjee, R.; Yu, T. (2021). Modular operators and entanglement in supersymmetric quantum mechanics. Journal of Physics A: Mathematical and Theoretical (20 ed., vol. 54).
2. Luo, D. W.; Qian, X. F.; Yu, T. (2021). Nonlocal magnon entanglement generation in coupled hybrid cavity systems. Optics Letters (5 ed., vol. 46, pp. 1073-1076).
3. Luo, D.; Qian, X.; Yu, T. (2021). Nonlocal magnon entanglement generation in coupled hybrid cavity systems. Optics Letters (vol. 46, pp. 1073). Optics Letters.
4. Ding, Q.; Chatterjee, R.; Huang, Y.; Yu, T. (2021). Gigh-dimensional temporal mode propagation in a turbulent environment. Quantum Information and Computation (3-4 ed., vol. 21, pp. 233-254).
5. Das, A.; Chatterjee, R.; Yu, T. (2020). Discrete phase space, relativistic quantum electrodynamics, and a non-singular Coulomb potential. Modern Physics Letters A (24 ed., vol. 35).
6. Chen, Y.; Ding, Q.; Shi, W.; Jun, J.; Yu, T. (2020). Exact entanglement dynamics mediated by leaky optical cavities. Journal of Physics B: Atomic, Molecular and Optical Physics (12 ed., vol. 53).
7. Sarma, A.; Chatterjee, R.; Gili, K.; Yu, T. (2020). Quantum unsupervised and supervised learning on superconducting processors. Quantum Information and Computation (7-8 ed., vol. 20, pp. 541-552).
8. Ma, Y. H.; Ding, Q. Z.; Yu, T. (2020). Persistent spin squeezing of a dissipative one-axis twisting model embedded in a general thermal environment. Physical Review A (2 ed., vol. 101).
9. Luo, D. W.; Lin, H. Q.; You, J. Q.; Wu, L. A.; Chatterjee, R.; Yu, T. (2019). Geometric decoherence in diffusive open quantum systems. Physical Review A (6 ed., vol. 100).
10. Wang, Z. M.; Luo, D. W.; Byrd, M. S.; Wu, L. A.; Yu, T.; Shao, B. (2018). Adiabatic speedup in a non-Markovian quantum open system. Physical Review A (6 ed., vol. 98).
11. Luo, X. Q.; Li, Z. Z.; Jing, J.; Xiong, W.; Li, T. F.; Yu, T. (2018). Spectral features of the tunneling-induced transparency and the Autler-Townes doublet and triplet in a triple quantum. Scientific Reports (1 ed., vol. 8).
12. Luo, D. W.; You, J. Q.; Lin, H. Q.; Wu, L. A.; Yu, T. (2018). Memory-induced geometric phase in non-Markovian open systems. Physical Review A (5 ed., vol. 98).
13. Chatterjee, R.; Yu, T.; Gili, K.; Sarma, A.. QUANTUM UNSUPERVISED AND SUPERVISED LEARNING ON SUPERCONDUCTING PROCESSORS. Quantum Information and Computation (7&8 ed., vol. 20, pp. 541-552).
14. Chatterjee, R.; Das, A.; Yu, T.. Discrete Phase Space, Relativistic Quantum Electrodynamics, and a Non- Singular Coulomb Potential. Modern Physics Letters (24 ed., vol. 35, pp. 2050199).
15. Chatterjee, R.; Yu, T.. Generalized Coherent States, Reproducing Kernels, and Quantum Support Vector Machines. Quantum Information and Computation (15&16 ed., vol. 17).

PEP750 Quantum Field Theory
PEP754 Advanced Quantum Mechanics
PEP552 General Relativity