Mile Gu
CQT Fellow
Centre for Quantum Technologies
Associate Professor
School of Physical & Mathematical Sciences - Division of Physics & Applied Physics, Nanyang Technological University
S15-04-18C

Preprints

Publications

  • Guo Yao Tham, Ranjith Nair, M. Gu. (2024). Quantum Limits of Covert Target Detection. Phys. Rev. Lett. 133 110801
  • A.Tanggara, M. Gu, Ranjith Nair, S.Assad, Varun Narasimhachar, Spyros Tserkis, Jayne Thompson, Ping Koy Lam. (2024). Quantum-optimal information encoding using noisy passive linear optics. Quantum 8 1218
  • Kang-Da Wu, Chengran Yang, Ren-Dong He, M. Gu, Guo-Yong Xiang, Chuan-Feng Li, Guang-Can Guo, Thomas J. Elliott. (2023). Implementing quantum dimensionality reduction for non-Markovian stochastic simulation. Nature Communications 14 2624
  • W.Y Suen, Thomas J. Elliott, Jayne Thompson, Andrew J. P. Garner, John R. Mahoney, Vlatko Vedral, M. Gu. (2022). Surveying structural complexity in quantum many-body systems. Journal of Statistical Physics 187 1-18
  • Xiaodong Yang, J. Thompson, Ze Wu, M. Gu, Xinhua Peng, Jiangfeng Du. (2020). Probe optimization for quantum metrology via closed-loop learning control. NPJ: Quantum Information 62
  • Farzad Ghafari, Nora Tischler, Carlo Di Franco, J. Thompson, M. Gu, Geoff J. Pryde. (2019). Interfering trajectories in experimental quantum-enhanced stochastic simulation. Nature Communications 10 1630
  • Varun Narasimhachar, J. Thompson, Jiajun Ma, Gilad Gour, M. Gu. (2019). Quantifying memory capacity as a quantum thermodynamic resource. Phys. Rev. Lett. 122 060601
  • Felix C. Binder, M. Gu, J. Thompson. (2018). Practical unitary simulator for non-Markovian complex processes. Phys. Rev. Lett. 120 240502
  • J. Thompson, A.Garner, John R. Mahoney, James P. Crutchfield, V. Vedral, M. Gu. (2018). Causal Asymmetry in a Quantum World. Phys. Rev. X 8 031013
  • Thomas J. Elliott, M. Gu. (2018). Superior memory efficiency of quantum devices for the simulation of continuous-time stochastic processes. NPJ: Quantum Information 4 18
  • Mark Bradshaw, Syed M. Assad, Jing Yan Haw, S. Tan, Ping Koy Lam, M. Gu. (2017). Overarching framework between Gaussian quantum discord and Gaussian quantum illumination. Phys. Rev. A 95 022333
  • W.Y Suen, J. Thompson, A.Garner, V. Vedral, M. Gu. (2017). The classical-quantum divergence of complexity in modelling spin chains. Quantum 1 25
  • N. Liu, J. Thompson, Christian Weedbrook, Seth Lloyd, V. Vedral, M. Gu, . (2016). The power of one qumode for quantum computation. Phys. Rev. A 93 052304
  • Christian Weedbrook, Stefano PIrandola, J. Thompson, V. Vedral, M. Gu. (2016). How discord underlies the noise resilience of quantum illumination . New J. Phys. 18 043027
  • Xiao Yuan, Syed M. Assad, J. Thompson, Jing Yan Haw, V. Vedral, Timothy C. Ralph, Ping Koy Lam, Christian Weedbrook, M. Gu. (2015). Replicating the benefits of closed timelike curves without breaking causality. NPJ: Quantum Information 1 15007
  • Fabio Franchini, Jian Cui, L. Amico, Heng Fan, M. Gu, Vladimir E. Korepin, L.C. Kwek, V. Vedral. (2014). Local convertibility and edge states in quantum many body systems. Phys. Rev. X 4 041028
  • Jian Cui, L. Amico, Heng Fan, M. Gu, Alioscia Hamma, V. Vedral. (2013). Local characterization of 1d topologically ordered states. Phys. Rev. B 88 125117
  • X. -D. Cai, Christian Weedbrook, Z. -E. Su, M. -C. Chen, M. Gu, M. -J. Zhu, L. Li, N. -L. Liu, Chao-Yang Lu, Jian-Wei Pan. (2013). Experimental Quantum Computing to Solve Systems of Linear Equations. Phys. Rev. Lett. 110 230501
  • K. Modi, M. Gu. (2012). Coherent and incoherent contents of correlations. Int. J. Mod. Phys. B 27 1245027
  • M. Gu, Helen M. Chrzanowski, Syed M. Assad, Thomas Symul, K. Modi, Timothy C. Ralph, V. Vedral, Ping Koy Lam. (2012). Observing the Operational Significance of Discord Consumption. Nature Physics 8 671-675
  • M. Gu, Alvaro Perales. (2012). Encoding Universal Computation in the Ground States of Ising Lattices. Phys. Rev. E 86 011116
  • J. Cui, M. Gu, L.C. Kwek, M.F. Santos, Heng Fan, V. Vedral. (2012). Quantum phases with differing computational power. Nature Communications 3 812
  • M. Gu, Karoline Wiesner, E. Rieper, V. Vedral. (2012). Quantum mechanics can reduce the complexity of classical models. Nature Communications 3 762
  • S. Sridharan, M. Gu, M.R. James, W.M. McEneaney. (2010). An efficient computational method for the optimal control of higher dimensional quantum systems. IEEE CDC
  • S. Sridharan, M. Gu, M.R. James, W.M. McEneaney. (2010). Reduced-complexity numerical method for optimal gate synthesis. Phys. Rev. A 82 042319
  • M. Gu, Christian Weedbrook, Nicolas C. Menicucci, Timothy C. Ralph, Peter van Loock. (2009). Quantum computing with continuous-variable clusters. Phys. Rev. A 79 062318
  • M. Gu, Andrew Doherty, Michael Nielsen. (2008). Quantum control via geometry: An explicit example. Phys. Rev. A 78 032327
  • Srinivas Sridharan, M. Gu, Matthew R. James. (2008). Gate complexity using dynamic programming. Phys. Rev. A 78 052327
  • Peter van Loock, Christian Weedbrook, M. Gu. (2007). Building Gaussian cluster states by linear optics. Phys. Rev. A 76 032321
  • M. Gu, A.S. Parkins, H.J. Carmichael. (2006). Entangled-state cycles from conditional quantum evolution. Phys. Rev. A 73 043813
  • Michael A. Nielsen, Mark R. Dowling, M. Gu, Andrew C. Doherty. (2006). Optimal control, geometry, and quantum computing. Phys. Rev. A 73 062323
  • Michael A. Nielsen, Mark R. Dowling, M. Gu, Andrew C. Doherty. (2006). Quantum computation as geometry. Science 311 1133

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