Dong Wang, Ph.D.

Professor

Department of Optoelectronic Engineering

School of Microelectronics &Data Science

Anhui University of Technology

 

Research Interests

l Laser;

l Optical computing

l Quantum information

l Nonlinear optics

 

Teaching Courses

l Laser Principle and Technology, College Physics, 

l Nonlinear Optics，Quantum Optics

 

Grants

1 National Science Foundation：Mechanism of quantum search and time division multiplexing in DOPO coherent Ising machine (No.61275001),2022.1-2025.12

2 National Science Foundation：Coherent feeback control of continuous variable based on two optical cavities (No.61275006),2017.1-2019.12

3 National Science Foundation：Optical parametric oscillation squeezer with a waveguide (No.61205115),2013.1-2015.12

4. Science Foundation of Anhui Province: Spatial quantum state light field generated by optical parametric resonator (No.KJ2012Z023),2012.1 -2014.12

5. Science Foundation of Anhui Province:Generation and control of squeezed light field based on optical double cavity (No.1608085MF133),2016.6 -2018.6

 

 

Selected Publications

1. S. Wu, M. Yang, S.H. Hao, C. Ding, and D. Wang, “Trapezoidal Plane-mirror Cavity for a Single-longitudinal-mode Nd:YAG Laser”, Optics Communications 554,130184(2024).

2. S.H. Hao , M. Wang, D. Wang and X. Su, “Topological error correction with a Gaussian cluster state”，Physical Review A 103, 052407 (2021).

3. D. Wang, X. Huang, X. Tang, and Q. Zhang, "Entanglement analyses of a nondegenerate optical parametric oscillator with a higher-transmissivity cavity mirror," Journal of Modern Optics 65,200-205(2018).

4. S.H. Hao, X. S. Huang, and D. Wang, "General Single-Mode Gaussian Operation with Two-Mode Entangled State," Chinese Physics Letters 34, 070301 (2017).

5. S.H. Hao, D. Wang, and X. Huang, "Quantum communication based on two-mode entangled state with quantum noise locking method," Optics Express 26, 13841-13849 (2018).

6. C. Xia, D. Wang, Y. Wu, J. Guo, F. Liu, Y. Zhang, and M. Xiao, "Continuous-variable entanglement measurement using an unbalanced Mach-Zehnder interferometer," Optics Letters 40, 1121-1124 (2015).

7. D. Wang, C. Xia, Q. Wang, Y. Wu, F. Liu, Y. Zhang, and M. Xiao, "Feedback-optimized extraordinary optical transmission of continuous-variable entangled states," Physical Review B 91, 121406 (2015).

8.. D. Wang, Y. Zhang, and M. Xiao, "Quantum limits for cascaded optical parametric amplifiers," Physical Review A 87, 023834 (2013).

9. X. S. Huang, H.L. Liu, D. WANG, X. T Mo and H. T Liu, "The spontaneous emission of an excited atom embedded in photonic crystals with two atomic position-dependent bands," Science China 56, 524-529 (2013).

10. D. Wang, X. Huang, X. Tang, and Q. Zhang, "Continuous variable entanglement measurement without phase-locking," Journal of Modern Optics 59, 53-56 (2011).

11. D. Wang, Y. Shang, Z. Yan, W. Wang, X. Jia, C. Xie, and K. Peng, "Experimental investigation about the influence of pump phase noise on phase-correlation of output optical fields from a non-degenerate parametric oscillator," Europhysics Letters 82, 24003 (2008).

12. D. Wang, Y. Shang, X. Jia, C. Xie, and K. Peng, "Dependence of quantum correlations of twin beams on the pump finesse of an optical parametric oscillator," Journal of Physics B: Atomic, Molecular and Optical Physics 41, 035502 (2008).