Wu Chunfeng
Lecturer
Email: 
Telephone: +65 6499 4765
Room Number: 1.602-30
Telephone: +65 6499 4765
Room Number: 1.602-30
Research Areas:
Quantum Physics, Optics, Photonics
Quantum Physics, Optics, Photonics
Pillar / Cluster: Engineering Product Development, Science, Mathematics and Technology

Education
- PhD in Physics, National University of Singapore
- MSc in Physics, Northeast Normal University, China
- BSc in Physics, Northeast Normal University, China
Research Interests
Chunfeng’s research mainly focuses on quantum physics, especially quantum information and computation. Specific research areas are
- Quantum optics and its application in quantum computation and simulation
- Quantum correlations
- Quantum decoherence and quantum control
Awards & Achievements
- Singapore Millennium Foundation Postdoctoral Fellowship (Aug 2006 – Jul 2008)
- Faculty of Science Best Graduate Researcher in Physics of 2005 (NUS, Singapore)
- President Graduate Fellowship of National University of Singapore (Aug 2004 – Jul 2005)
Selected Publications
- C. F. Wu, J. L. Chen, X. J. Ye, H. Y. Su, D. L. Deng, Z. H Wang, and C. H. Oh, “Test of Einstein-Podolsky-Rosen Steering Based on the All-Versus-Nothing Proof”, Scientific Reports 4, 4291 (2014).
- H. Y. Su, J. L. Chen, C. F. Wu, D. L. Deng, and C. H. Oh, “Testing Leggett’s Inequality Using Aharonov-Casher Effect”, Scientific Reports 3, 2492 (2013).
- J. L. Chen, X. J. Ye, C. F. Wu, H. Y. Su, A. Cabello, L. C. Kwek, and C. H. Oh, “All-Versus-Nothing Proof of Einstein-Podolsky-Rosen Steering”, Scientific Reports 3, 2143 (2013).
- J. L. Chen, H. Y. Su, C. F. Wu, D. L. Deng,A. Cabello, L. C. Kwek, and C. H. Oh, “Quantum Contextuality for a Relativistic Spin-1/2Particle”, Phys. Rev. A 87, 022109 (2013).
- D. L. Deng, C. F. Wu, J. L. Chen, S. J. Gu, S. X. Yu, and C. H. Oh, “Bell nonlocality in conventional and topological quantum phasetransitions”, Phys. Rev. A 86, 032305 (2012).
- H. Y. Su, J. L. Chen, C. F. Wu, S. X. Yu, and C. H. Oh, “Quantum contextuality in a one-dimensional quantumharmonic oscillator”, Phys. Rev. A 85, 052126 (2012).
- J. L. Chen, D. L. Deng, H. Y. Su, C. F. Wu, and C. H. Oh, “Detecting full N-particle entanglement inarbitrarily-high-dimensional systems with Bell-type inequalities”, Phys. Rev. A 83, 022316 (2011).
- J. Shen, X. L. Huang, X. X. Yi, C. F. Wu, and C. H. Oh, “Dynamics of quantum-classical hybrid systems:Effect of matter-wave pressure”, Phys.Rev. A 82, 062107 (2010).
- D. L. Deng, C. F. Wu, J. L. Chen, and C. H. Oh, “Fault-Tolerant Greenberger-Horne-Zeilinger Paradox Based on Non-AbelianAnyons”, Phys. Rev. Lett. 105, 060402 (2010).
- X. L. Feng, C. F. Wu, H. Sun, and C. H. Oh, “Geometric Entangling Gates in Decoherence-Free Subspaces with MinimalRequirements”, Phys. Rev. Lett. 103, 200501 (2009).
- H. Sun, X. L. Feng, C. F. Wu, J. M. Liu, S. Q. Gong, and C. H. Oh, “Optical rotation of heavy holespins by non-Abelian geometrical means”, Phys. Rev. B 80, 235404 (2009) as an Editors’ Suggestion.
- X. X. Yi, X. L. Huang, C. F. Wu, and C. H. Oh, “Driving quantum systems into decoherence-free subspaces by Lyapunovcontrol”, Phys. Rev. A 80, 052316 (2009).
- X. L. Zhang, X. L. Feng, C. F. Wu, and C. H. Oh, “Nongeometricmultiqubit conditional phase gates by adiabatic evolution for trapped ions”, Phys. Rev. A 79, 034301 (2009).
- C. F. Wu, X.L. Feng, X. X. Yi, I. M. Chen, and C. H. Oh, “Quantum gate operation in the decoherence free subspace of SQUID”, Phys. Rev. A 78, 062321 (2008).
- X. L. Huang, X. X. Yi, C. F. Wu, X. L. Feng, S. X.Yu, and C. H. Oh, “Effective Hamiltonian approach to open systems and itsapplications”, Phys. Rev. A 78,062114 (2008).
- J. L. Chen, C. F. Wu, L. C. Kwek, and C. H. Oh, “Bell inequalities for threeparticles”, Phys. Rev. A 78, 032107 (2008).
- X. L. Feng, C. F. Wu, C. H. Lai, and C. H. Oh, “Universalquantum computation with trapped ions in thermal motion by adiabaticpassage”, Phys. Rev. A 77,062336 (2008).
- C. F. Wu, J.L. Chen, L. C. Kwek, and C. H. Oh, “Correlation-functionBell inequality with improved visibility for three qubits”, Phys. Rev. A 77, 062309 (2008).
- Z. S. Wang, C. F. Wu, X. L. Feng, L. C. Kwek, C.H. Lai, C. H. Oh, and V. Vedral, “Nonadiabaticgeometric quantum computation”, Phys. Rev. A 76, 044303 (2007).
- C. F. Wu, Z.S. Wang, X. L. Feng, H. S. Goan, L. C. Kwek, and C. H. Oh, “Unconventional geometric quantum computationin a two-mode cavity”, Phys.Rev. A 76, 024302 (2007).
- X. L. Feng, Z. S. Wang, C. F. Wu, L. C. Kwek, C.H. Lai, and C. H. Oh, “Scheme forunconventional geometric quantum computation in cavity QED”, Phys. Rev. A 75, 052312 (2007).
- C. F. Wu, Y.Yeo, L. C. Kwek, and C. H. Oh, “Quantumnonlocality of four-qubit entangled states”, Phys. Rev. A 75, 032332 (2007).
- Z. S. Wang, C. F. Wu, X. L. Feng, L. C. Kwek, C.H. Lai, and C. H. Oh, “Effects ofa squeezed-vacuum reservoir on geometric phase”, Phys. Rev. A 75, 024102 (2007).
- J. L. Chen, C. F. Wu, L. C. Kwek, C. H. Oh, and M.L. Ge, “Violating Bell inequalities maximally for two d-dimensionalsystems”, Phys. Rev. A 74,032106 (2006).
- C. F. Wu, J.L. Chen, L. C. Kwek, and C. H. Oh, “Quantumnonlocality of N-qubit W state”, Phys. Rev. A 73, 012310 (2006).
- J. L. Chen, C. F. Wu, L. C. Kwek, D. Kaszlikowski,M. Zukowski, and C. H. Oh, “Multi-componentBell inequality and its violation for continuous-variable systems”, Phys. Rev. A 71, 032107 (2005).
- C. F. Wu, J.L. Chen, L. C. Kwek, C. H. Oh, and K. Xue, “Continuous multipartite entangled state in the Wigner representationand violation of Zukowski-Brunker inequality”, Phys. Rev. A 71, 022110 (2005).
- J. L. Chen, C. F. Wu, L. C. Kwek, and C. H. Oh,”Gisin’s theorem for three qubits”, Phys. Rev. Lett. 93, 140407 (2004).