Centre Related Publications

Journal Articles


[1] Multipartite Einstein-Podolsky-Rosen steering and genuine tripartite entanglement with optical networks, S. Armstrong, M. Wang, R. Yan Teh, Q. Gong, Q. He, J. Janousek, H-A Bachor, M.D. Reid and P.K. Lam, Nature Physics 11, 167 (2015).

[2] Nonlinear entanglement and its application to generating cat states, Y. Shen, S.M. Assad, N.B. Grosse, X.Y. Li, M.D. Reid and P.K. Lam, Physical Review Letters 114, 100403 (2015).

[3] Maximization of extractable randomness in a quantum random-number generator, J.Y. Haw, S.M. Assad, A.M. Lance, N H.Y. Ng, V. Sharma, P.K. Lam and T. Symul, Physical Review Applied 3, 54004 (2015).

[4] Dual-rail optical gradient echo memory, D.B. Higginbottom, J. Geng, G.T. Campbell, M. Hosseini, M.T. Cao, B.M. Sparkes, J. Bernu, N.P. Robins, P.K. Lam and B.C. Buchler, Optics Express 23, 24937 (2015).

[5] Measurement-based noiseless linear amplification for quantum communication, H.M. Chrzanowski, N. Walk, S.M. Assad, J. Janousek, S. Hosseini, T.C. Ralph, T. Symul and P.K. Lam, Nature Photonics 8, 333 (2014).

[6] Configurable unitary transformations and linear logic gates using quantum memories, G.T. Campbell, O. Pinel, M. Hosseini, T.C. Ralph, B.C. Buchler and P.K. Lam, Physical Review Letters 113, 063601 (2014).

[7] Theoretical analysis of an ideal noiseless linear amplifier for Einstein-Podolsky-Rosen entanglement distillation, J. Bernu, S. Armstrong, T. Symul, T.C. Ralph and P.K. Lam, Journal Of Physics B-atomic Molecular And Optical Physics 47, 215503 (2014).

[8] Asymmetric EPR entanglement in continuous variable systems, K. Wagner, J Janousek, S. Armstrong, J.F. Morizur, P.K. Lam and H.A. Bachor, Journal Of Physics B: Atomic, Molecular And Optical Physics 47, 225502 (2014).

[9] Electromagnetically induced transparency and four-wave mixing in a cold atomic ensemble with large optical depth, J Geng, G.T. Campbell, J. Bernu, D.B. Higginbottom, B.M. Sparkes, S.M. Assad, W.P. Zhang, N.P. Robins, P.K. Lam and B.C. Buchler, New Journal Of Physics 16, 113053 (2014).

[10] Experimental investigation of the transition between Autler-Townes splitting and electromagnetically-induced-transparency models, L. Giner, L. Veissier, B. Sparkes, A.S. Sheremet, A. Nicolas, O.S. Mishina, M. Scherman, S. Burks, I. Shomroni, D.V. Kupriyanov, P.K. Lam, E. Giacobino and J. Laurat, Physical Review A 87, 013823 (2013).

[11] Security of continuous-variable quantum cryptography with Gaussian postselection, N. Walk, T.C. Ralph, T. Symul and P.K. Lam, Physical Review A 87, 20303 (2013).

[12] Reconstruction of photon number conditioned states using phase randomized homodyne measurements, H.M. Chrzanowski, S.M. Assad, J. Bernu, B. Hage, A.P. Lund, T.C. Ralph, P.K. Lam and T. Symul, Journal Of Physics B: Atomic Molecular And Optical Physics 46, 104009 (2013).

[13] Don’t Cry over Broken Entanglement, T.C. Ralph and P.K. Lam, Physics - Spotlighting Exceptional Research (viewpoint) 6, 74 (2013).

[14] Gradient echo memory in an ultra-high optical depth cold atomic ensemble, B.M. Sparkes, J. Bernu, M. Hosseini, J. Geng, Q. Glorieux, P. A. Altin, P.K. Lam, N.P. Robins and B.C. Buchler, New Journal Of Physics 15, 85027 (2013).

[15] Generation and interferometric analysis of high charge optical vortices, Y. Shen, G.T. Campbell, B. Hage, H. Zou, B.C. Buchler and P.K. Lam, Journal Of Optics 15, 044005 (2013).

[16] Scattering-free optical levitation of a cavity mirror, G. Guccione, M. Hosseini, S. Adlong, M.T. Johnsson, J. Hope, B.C. Buchler and P.K. Lam, Physical Review Letters 111, 0183001 (2013).

[17] Time and frequency-domain polariton interference, G. Campbell, M. Hosseini, B.M. Sparkes, P.K. Lam and B.C. Buchler, New Journal Of Physics 14, 033022 (2012).

[18] Generation of high-order optical vortices using directly machined spiral phase mirrors, G. Campbell, B.Hage, B. Buchler, P.K. Lam, Applied Optics 51, 873 (2012).

[19] Storage and manipulation of light using a Raman gradient-echo process, M. Hosseini, B.M. Sparkes, G.T. Campbell, P.K. Lamand and B.C. Buchler, Journal Of Physics B-atomic Molecular & Optical Physics 45, 124004 (2012).

[20] Spatial-mode storage in a gradient-echo memory, D.B. Higginbottom, B.M. Sparkes, M. Rancic, O. Pinel, M. Hosseini, P.K. Lam and B.C. Buchler, Physical Review A 86, 023801 (2012).

[21] Balanced homodyne detection of optical quantum states at audio-band frequencies and below, M.S. Stefszky, C.M. Mow-Lowry, S.S.Y. Chua, D.A. Shaddock, B.C. Buchler, H. Vahlbruch, A. Khalaidovski, R. Schnabel, P.K. Lam and D.E. McClelland, Classical And Quantum Gravity 29, 145015 (2012).

[22] Observing the operational significance of discord consumption, M. Gu, H.M. Chrzanowski, S.M. Assad, T. Symul, K. Modi, T.C. Ralph, V. Vedral and P.K. Lam, Nature Physics 8, 671 (2012).

[23] Quantum benchmarking with realistic states of light, N. Killoran, M. Hosseini, B.C. Buchler, P.K. Lam, and N. Lütkenhaus, Physical Review A 86, 22331 (2012).

[24] Memory-enhanced noiseless cross-phase modulation, M. Hosseini, S. Rebi, B.M. Sparkes, J. Twamley, B.C. Buchler and P.K. Lam, Nature Light Science And Applications 1, e40 (2012).

[25] High efficiency coherent optical memory with warm rubidium vapour, M. Hosseini, B.M. Sparkes, G. Campbell, P.K. Lam and B.C. Buchler, Nature Communications 2, 174 (2011).

[26] Real time demonstration of high bitrate quantum random number generation with coherent laser light, T. Symul, S.M. Assad and P.K. Lam, Applied Physics Letters 98, 231103 (2011).

[27] Unconditional room-temperature quantum memory, M. Hosseini, G. Campbell, B.M. Sparkes, P.K. Lam and B.C. Buchler, Nature Physics 7, 794 (2011).

[28] A scalable, self-analyzing digital locking system for use on quantum optics experiments, B.M. Sparkes, H.M. Chrzanowski, D.P. Parrain, B.C. Buchler, P.K. Lam and T. Symul, Review Of Scientific Instruments 82, 075113 (2011).

[29] Demonstrating various quantum effects with two entangled laser beams, B. Hage, J. Janousek, S.C. Armstrong, T. Symul, J. Bernu, H.M. Chrzanowski, P.K. Lam and H.A. Bachor, The European Physical Journal D 63, 457 (2011).

[30] Photon-number discrimination without a photon counter and its application to reconstructing non-Gaussian states, H.M. Chrzanowski, J. Bernu, B.M. Sparkes, B. Hage, A.P. Lund, T.C. Ralph, P.K. Lam and T. Symul, Physical Review A 84, 050302 (2011).

[31] Atom–light interactions: The nonlinearity of single photons, P.K. Lam and B.C. Buchler, Nature Photonics 5, 580 (2011).

[32] A bright future for quantum communications, T.C. Ralph and P.K. Lam, Nature Photonics 3, 671 (2009).

[33] Conditional quantum-state engineering using ancillary squeezed-vacuum states, H. Jeong, A.M. Lance, N.B. Grosse, T. Symul, P.K. Lam and T.C. Ralph, Physical Review A 74, 33813 (2006).

[34] Quantum-state engineering with continuous-variable postselection, A.M. Lance, H. Jeong, N.B. Grosse, T. Symul, T.C. Ralph and P.K. Lam, Physical Review A (rapid Communications) 73, 41801 (2006).

[35] Continuous-variable quantum-state sharing via quantum disentanglement, A.M. Lance, T. Symul, W.P. Bowen, B.C. Sanders, T. Tyk, T.C. Ralph and P.K. Lam, Physical Review A 71, 33814 (2005).

[36] Experimental characterization of continuous-variable entanglement, W.P. Bowen, R. Schnabel, P.K. Lam and T.C. Ralph, Physical Review A 69, 12304 (2004).

[37] An Experimental Investigation of Criteria for Continuous Variable Entanglement, W.P. Bowen, R. Schnabel, P.K. Lam and T.C. Ralph, Physical Review Letters 90, 43601 (2003).

[38] Continuous variables (2 3) threshold quantum secret sharing schemes, A.M Lance, T. Symul, W.P Bowen, T. Tyc, B.C. Sanders and P.K. Lam, New Journal Of Physics 5, 4 (2003).

[39] Quantum Teleportation with Einstein-Podolsky-Rosen Optical Entanglement, P.K. Lam, W.P. Bowen and T.C. Ralph, The Physicist 39, 73 (2002).

Book Citations