Centre Related Publications

Journal Articles


[1] What can quantum optics say about computational complexity theory?, S. Rahimi-Keshari, A.P. Lund and T.C. Ralph, Physical Review Letters 114, 060501 (2015).

[2] Nearly deterministic Bell measurement for multiphoton qubits and its application to quantum information processing, S-W. Lee, K. Park, T.C. Ralph and H. Jeong, Physical Review Letters 114, 113603 (2015).

[3] Photon sorting, efficient bell measurements, and a deterministic controlled-Z gate using a passive two-level nonlinearity, T.C. Ralph, I. Söllner, S. Mahmoodian, A.G. White, and P. Lodahl, Physical Review Letters 114, 173603 (2015).

[4] Quantum key distribution without sending a quantum signal, T.C. Ralph and N. Walk, New Journal Of Physics 17, 63008 (2015).

[5] Properties of hybrid entanglement between discrete- and continuous-variable states of light, L.S. Constanzo, A. Zaavatta, S. Grandi, M. Bellini, H. Jeong, M. Kang, S-W. Lee and T.C. Ralph, Physica Scripta 90, 74045 (2015).

[6] Operational discord measure for Gaussian states with Gaussian measurements, S. Rahimi-Keshari, T.C. Ralph and C.M. Caves, New Journal Of Physics 17, 063037 (2015).

[7] Undoing the effect of loss on quantum entanglement, A.E. Ulanov, I.A. Fedorov, A.A. Pushkina, Y.V. Kurochkin, T.C. Ralph and A.I. Lvovsky, Nature Photonics 9, 764 (2015).

[8] Experimental verification of quantum discord in continuous-variable states, S. Hosseini, S. Rahimi-Keshari, J.Y. Haw, S.M. Assad, H.M. Chrzanowski, J. Janousek, T. Symul, T.C. Ralph and P. K. Lam, Journal Of Physics B 47, 25503 (2014).

[9] 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).

[10] Optimal architecture for a nondeterministic noiseless linear amplifier, N.A. McMahon, A.P. Lund and T.C. Ralph, Physical Review A 89, 023846 (2014).

[11] Entanglement-free certification of entangling gates, M.P. Almeida, M. Gu, A. Fedrizzi, M.A. Broome, T.C. Ralph and A.G. White, Physical Review A 89, 042323 (2014).

[12] Experimental simulation of closed timelike curves, M. Ringbauer, M.A. Broome, CR. Myers, AG. White and T.C. Ralph, Nature Communications 5, 4145 (2014).

[13] Generation of hybrid entanglement of light, H. Jeong, A. Zavatta, M. Kang, S-W. Lee, Luca S. Costanzo, S. Grandi, T.C. Ralph and M. Bellini, Nature Photonics 8, 564 (2014).

[14] 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).

[15] Boson sampling from a gaussian state, A.P. Lund, A. Laing, S. Rahimi-Keshari, T. Rudolph, J.L. O’Brien, and T.C. Ralph, Physical Review Letters 113, 100502 (2014).

[16] Boson sampling from a gaussian state, A.P. Lund, A. Laing, S. Rahimi-Keshari, T. Rudolph, J.L. O’Brien, and T.C. Ralph, Physical Review Letters 113, 100502 (2014).

[17] Quantum communication in the presence of a horizon, D. Su and T.C. Ralph, Physical Review D 90, 084022 (2014).

[18] 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).

[19] Detecting the degree of macroscopic quantumness using an overlap measurement, H. Jeong, C. Noh, S. Bae, D.G. Angelakis and T.C. Ralph, Journal Of The Optical Society Of America B 31, 3057 (2014).

[20] Photonic boson sampling in a tunable circuit, M.A. Broome, A. Fedrizzi, S. Rahimi-Keshari, J. Dove, S. Aaronson, T.C. Ralph and A.G. White, Science 339, 794 (2013).

[21] Calculating unknown eigenvalues with a quantum computer, X-Q. Zhou, P. Kalasuwan, T.C. Ralph, and J.L. O’Brien, Nature Photonics 7, 223 (2013).

[22] Heralded noiseless amplification of a photon polarization qubit, S. Kocsis, G.Y. Xiang, T.C. Ralph and G.J. Pryde, Nature Physics 9, 23 (2013).

[23] 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).

[24] Measurement-based method for verifying quantum discord, S. Rahimi-Keshari, C.M. Caves and T.C. Ralph, Physical Review A 87, 12119 (2013).

[25] 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).

[26] Quantum cryptography continuous improvement, P. K. Lam and T.C. Ralph, Nature Photonics (news & Views) 7, 350 (2013).

[27] Boson sampling on a chip, T.C. Ralph, Nature Photonics (news & Views) 7, 514 (2013).

[28] Direct characterisation of any linear photonic device, S. Rahimi-Keshari, M.A. Broome, R. Fickler, A. Fedrizzi, T.C. Ralph and A.G. White, Optics Express 21, 13450 (2013).

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

[30] Quantum communication: Reliable teleportation, T.C. Ralph, Nature 500, 282 (2013).

[31] High-fidelity teleportation of continuous-variable quantum states using delocalized single photons, U.L. Andersen and T.C. Ralph, Physical Review Letters 111, (2013).

[32] Generation of distributed entangled coherent states over a lossy environment with inefficient detectors, A.P. Lund, T.C. Ralph and H. Jeong, Physical Review A 88, 52335 (2013).

[33] Error tolerance of the boson-sampling model for linear optics quantum computing, P.P. Rohde and T.C. Ralph, Physical Review A 85, 22332 (2012).

[34] Entanglement dynamics and quasi-periodicity in discrete quantum walks, P.P. Rohde, A. Fedrizzi and T.C. Ralph, Journal Of Modern Optics 59, 710 (2012).

[35] Quantum-enhanced optical-phase tracking, H. Yonezawa, D. Nakane, T.A. Wheatley, K. Iwasawa, S. Takeda, H. Arao, K. Ohki, K. Tsumura, D.W. Berry, T.C. Ralph, H.M. Wiseman, E.H. Huntington and A. Furusawa, Science 337, 1514 (2012).

[36] 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).

[37] Gaussian quantum information, C. Weedbrook, S. Pirandola R. García-Patrón, N.J. Cerf, T.C. Ralph, J.H. Shapiro and S. Lloyd, Reviews Modern Physics 84, 621 (2012).

[38] Continuous-variable quantum key distribution using thermal states, C. Weedbrook, S. Pirandola and T.C. Ralph, Physical Review A 86, 22318 (2012).

[39] Engineered optical nonlinearity for quantum light sources, A.M. Branczyk, A. Fedrizzi, T.M. Stace, T.C. Ralph and A.G. White, Optics Express 19, 55 (2011).

[40] Entanglement between the Future and the Past in the Quantum Vacuum, S.J. Olson and T.C. Ralph, Physical Review Letters 106, 110404 (2011).

[41] Entangling moving cavities in non-inertial frames, T.G. Downes, I. Fuentes and T.C. Ralph, Physical Review Letters 106, 210502 (2011).

[42] Time-resolved detection and mode-mismatch in a linear optics quantum gate, P.P. Rohde and T.C. Ralph, New Journal Of Physics 13, 053036 (2011).

[43] Adding control to arbitrary unknown quantum operations, X-Q Zhou, T.C. Ralph, P. Kalasuwan, M. Zhang, A. Peruzzo, B.P. Lanyon and J.L. O’Brien, Nature Communications 2, 413 (2011).

[44] Space-time qubits, J.L. Pienaar, C.R. Myers and T.C. Ralph, Physical Review A 84, 022315 (2011).

[45] Quantum error correction of continuous variable states against Gaussian noise, T.C. Ralph, Physical Review A 84, 022339 (2011).

[46] 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).

[47] Coherent state topological cluster state production, C.R. Myers and T.C. Ralph, New Journal Of Physics 13, 115015 (2011).

[48] Fair-sampling assumption is not necessary for testing local realism, D.W. Berry, H. Jeong, M. Stobinska and T.C. Ralph, Physical Review A 81, 12109 (2010).

[49] Optimised generation of heralded Fock states using parametric down conversion, A.M. Branczyk, T.C. Ralph, W. Helwig and C. Silberhorn, New Journal Of Physics 12, 63001 (2010).

[50] Linear optical quantum computation with imperfect entangled photon-pair sources and inefficient non-photonnumber- resolving detectors, Y.X. Gong, X.B. Zou, T.C. Ralph, S.N. Zhu and G.C. Guo, Physical Review A 81, 52303 (2010).

[51] Fault Tolerance in Parity-State Linear Optical Quantum Computing, A.J.F. Hayes, H.L. Haselgrove, A. Gilchrist and T.C. Ralph, Physical Review A 82, 22323 (2010).

[52] Multiplexed communication over a high-speed quantum channel, M. Heurs, J.G. Webb, A.E. Dunlop, C.C. Harb, T.C. Ralph and E.H. Huntington, Physical Review A 81, 32325 (2010).

[53] High-Fidelity operation of quantum photonic circuits, A. Laing, A. Peruzzo, A. Politi, M. Rodas Verde, M. Halder, T.C. Ralph, M.G. Thompson and J.L. O’Brien, Applied Physics Letters 97, 211109 (2010).

[54] Arbitrarily large continuous-variable cluster states from a single quantum nondemolition gate, N.C. Menicucci, X. Ma and T.C. Ralph, Physical Review Letters 104, 250503 (2010).

[55] Adaptive optical phase estimation using time-symmetric quantum smoothing, T.A. Wheatley, D.W. Berry, H. Yonezawa, D.Nakane, H. Arao, D.T. Pope, T.C. Ralph, H.M. Wiseman, A. Furusawa and E.H. Huntington, Physical Review Letters 104, 93601 (2010).

[56] Heralded noiseless linear amplification and distillation of entanglement, G.Y. Xiang, T.C. Ralph, A.P. Lund, N. Walk and G.J. Pryde, Nature Photonics 4, 316 (2010).

[57] Quantum Computing with Continuous-Variable Clusters, M. Gu, C. Weedbrook, N.C. Menicucci, T.C. Ralph and P. van Loock, Physical Review A 79, 62318 (2009).

[58] Failure of local realism revealed by extremely-coarse-grained measurements, H. Jeong, M. Paternostro and T.C. Ralph, Physical Review Letters 102, 60403 (2009).

[59] Simplifying quantum logic using higher-dimensional Hilbert spaces, B.P. Lanyon, M. Barbieri, M.P. Almeida, T. Jennewein, T.C. Ralph, K.J. Resch, G.J. Pryde, J.L. O'Brien, A. Gilchrist and A.G. White, Nature Physics 5, 134 (2009).

[60] Tomography of quantum detectors, J.S. Lundeen, A. Feito, H. Coldenstrodt-Ronge, K.L. Pregnell, C. Silberhorn, T.C. Ralph, J. Eisert, M.B. Plenio and I.A. Walmsley, Nature Physics 5, 27 (2009).

[61] Violations of Bell's inequality for Gaussian states with homodyne detection and nonlinear interactions, M. Paternostro, H. Jeong and T.C. Ralph, Physical Review A 79, 12101 (2009).

[62] Quantum connectivity of space-time and gravitationally induced decorrelation of entanglement, T.C. Ralph, G.J. Milburn and T. Downe, Physical Review A 79, 22121 (2009).

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

[64] Teleportation using squeezed single photons, M. Branczyk and T.C. Ralph, Physical Review A 78, 52304 (2008).

[65] Methods for linear optical quantum Fredkin gate, Y.X. Gong, G.C. Guo and T.C. Ralph, Physical Review A 78, 12305 (2008).

[66] Proposal for Optical Parity State Re-encoder, Y.X. Gong, A.J.F. Hayes, G.C. Guo and T.C. Ralph, Journal Of Modern Optics 55, 2415 (2008).

[67] Loss-tolerant operations in parity-code linear optics quantum computing, A.J.F. Hayes, A. Gilchrist and T.C. Ralph, Physical Review A 77, 12310 (2008).

[68] Fault-tolerant linear optical quantum computing with small amplitude coherent states, A.P. Lund, T.C. Ralph and H.L. Haselgrove, Physical Review Letters 100, 30503 (2008).

[69] Entangled non-Gaussian states formed by mixingGaussian states, A.P. Lund, T.C. Ralph and P. van Loock, Journal Of Modern Optics 55, 2083 (2008).

[70] Tomography of quantum detectors, J.S. Lundeen, A. Feito, H. Coldenstrodt-Ronge, K.L. Pregnell, C. Silberhorn, T.C. Ralph, J. Eisert, M.B. Plenio and I.A. Walmsley, Nature Physics 5, 27 (2008).

[71] Single photon sidebands, T.C. Ralph, E.H. Huntington and T. Symul, Physical Review A 77, 63817 (2008).

[72] Practical effects in the preparation of cluster states using weak nonlinearities, P.P. Rohde, W.J. Munro, T.C. Ralph, P. van Loock and K. Nemoto, Quantum Information And Computing 8, 53 (2008).

[73] Efficient parity-encoded optical quantum computing, A. Gilchrist, A.J. Hayes and T.C. Ralph, Physical Review A 75, 52328 (2007).

[74] Quantum superpositions and entanglement of thermal states at high temperatures and their applications to quantum-information processing, H. Jeong and T.C. Ralph, Physical Review A 76, 42103 (2007).

[75] Linear optical quantum computing, P. Kok, W.J. Munro, K. Nemoto, T.C. Ralph, J.P. Dowling and G.J. Milburn, Reviews Of Modern Physics 79, 135 (2007).

[76] Optical zeno gate: bounds for fault tolerance, P.M. Leung and T.C. Ralph, New Journal Of Physics 9, 224 (2007).

[77] Efficient toffoli gates using qudits, T.C. Ralph, K. Resch and A. Gilchrist, Physical Review A 75, 22313 (2007).

[78] Better computing with photons, T.C. Ralph and R.W. Boyd, Science 23, 1251 (2007).

[79] Error tolerance and tradeoffs in loss- and failure-tolerant quantum computing schemes, P.P. Rohde, T.C. Ralph and W.J. Munro, Physical Review A (rapid Communications) 75, 10302 (2007).

[80] Photon number projection using non-numberresolving detectors, P.P. Rohde, J.G. Webb, E.H. Huntington and T.C. Ralph, New Journal Of Physics 9, 233 (2007).

[81] Observation of a comb of optical squeezing over many gigahertz of bandwidth, R.J. Senior, G.N. Milford, J. Janousek, A.E. Dunlop, K. Wagner, H.-A. Bachor, T.C. Ralph, E.H. Huntington and C.C. Harb, Optics Express 15, 5317 (2007).

[82] Violation of Bell's inequality using classical measurements and non-linear local operations, M. Stobinska, H. Jeong and T.C. Ralph, Physical Review A 75, 52105 (2007).

[83] Generation of a frequency comb of squeezing in an optical parametric oscillator, A.E. Dunlop, E.H. Huntington, C.C. Harb and T.C. Ralph, Physical Review A 73, 13817 (2006).

[84] 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).

[85] 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).

[86] Quantum memory scheme based on optical fibers and cavities, P.M. Leung and T.C. Ralph, Physical Review A 74, 22311 (2006).

[87] Improving the fidelity of optical Zeno gates via distillation, P.M. Leung and T.C. Ralph, Physical Review A 74, 62325 (2006).

[88] Quantum nondemolition measurements for quantum information, T.C. Ralph, S.D. Bartlett, J.L. O'Brien, G.J. Pryde and H.M. Wiseman, Physical Review A 73, 12113 (2006).

[89] Quantum optical systems for the implementation of quantum information processing, T.C. Ralph, Reports On Progress In Physics 69, 853 (2006).

[90] Error models for mode-mismatch in linear optics quantum computing, P.P. Rohde and T.C. Ralph, Physical Review A 73, 62312 (2006).

[91] Practical limitations in optical entanglement purification, P.P. Rohde, T.C. Ralph and W.J. Munro, Physical Review A (rapid Communications) 73, 30301 (2006).

[92] Modelling Photo-Detectors in Quantum Optics, P.P. Rohde and T.C. Ralph, Journal Of Modern Optics 53, 1589 (2006).

[93] Homodyne measurement of the average photon number, J.G. Webb, T.C. Ralph and E.H. Huntington, Physical Review A 73, 33808 (2006).

[94] Demonstration of the spatial separation of the entangled quantum sidebands of an optical field, E.H. Huntington, G.N. Milford, C. Robilliard, T.C. Ralph, O. Glockl, S. Lorenz, U. Andersen and G. Leuchs, Physical Review A (rapid Communications) 71, 41802 (2005).

[95] Coherent analysis of quantum optical sideband modes, E.H. Huntington, G.N. Milford, C. Robilliard and T.C. Ralph, Optics Letters 30, 2481 (2005).

[96] Production of superpositions of coherent states in travelling optical fields with inefficient photon detection, H. Jeong, A.P. Lund and T.C. Ralph, Physical Review A 72, 13801 (2005).

[97] Communicating continuous quantum variables between different lorentz frames, P. Kok, T.C. Ralph and G.J. Milburn, Quantum Information And Computation 5, 239 (2005).

[98] 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).

[99] Coherent state LOQC gates using simplified diagonal superposition resource states, A.P.Lund and T.C. Ralph, Physical Review A 71, 32305 (2005).

[100] High-fidelity Z-measurement error correction of optical qubits, J.L. O'Brien, G.J. Pryde, A.G. White and T.C. Ralph, Physical Review A : Rapid Communications 71, 060303(R) (2005).

[101] Measurement of Quantum Weak Values of Photon Polarization, G.J. Pryde, J.L. O'Brien, A.G. White, T.C. Ralph and H.M. Wiseman, Physical Review Letters 94, 220405 (2005).

[102] Pryde et al. reply, G.J. Pryde, J.L. O'Brien, A.G. White, S.D. Bartlett and T.C. Ralph, Physical Review Letters 95, 48902 (2005).

[103] Loss tolerant optical qubits, T.C. Ralph, A.J.F. Hayes and A. Gilchrist, Physical Review Letters 95, 100501 (2005).

[104] Adaptive phase measurements in linear optical quantum computation, T.C. Ralph, A.P. Lund and H.M. Wiseman, Journal Of Optics B 7, S245 (2005).

[105] Frequency and temporal effects in linear optics quantum computing, P.P. Rohde and T.C. Ralph, Physical Review A 71, 32320 (2005).

[106] Quantum-gate characterization in an extended Hilbert space, P.P. Rohde, G.J. Pryde, J.L. O'Brien and T.C. Ralph, Physical Review A 72, 39906 (2005).

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

[108] Schrodinger cats and their power for quantum information processing, A. Gilchrist, K. Nemoto, W.J. Munro, T.C. Ralph, S. Glancy, S.L. Braunstein, G.J. Milburn, Journal Of Optics B : Quantum Semiclassical Optics 6, S828 (2004).

[109] Transmission Of Optical Coherent State Qubits, S. Glancy, H. Vasconcelos and T.C. Ralph, Physical Review A 70, 22317 (2004).

[110] Utilizing Encoding in Scalable Linear Optics Quantum Computing, A.J.F. Hayes, A. Gilchrist, C.R. Myers and T.C. Ralph, Journal Of Optics B: Quantum And Semiclassical Optics 6, 533 (2004).

[111] Components for optical qubits in the radio frequency basis, E.H. Huntington and T.C. Ralph, Physical Review A 69, 42318 (2004).

[112] Conditional production of superpositions of coherent states with inefficient photon detection, A.P. Lund, H. Jeong, T.C. Ralph and M.S. Kim, Physical Review A (rapid Communications) 70, 20101 (2004).

[113] Measuring a photonic qubit without destroying it, G.J. Pryde, J.L. O'Brien, A.G. White, S.D. Bartlett and T.C. Ralph, Physical Review Letters 92, 190402 (2004).

[114] Scaling of Multiple post-selected quantum gates in optics, T.C. Ralph, Physical Review A 70, 12312 (2004).

[115] Deterministic generation of tailored optical coherent state superpositions, H. Ritsch, G.J. Milburn and T.C. Ralph, Physical Review A 70, 33804 (2004).

[116] 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).

[117] Photon Added Detector, A.M. Branczyk, T.J. Osborne, A. Gilchrist and T.C. Ralph, Physical Review A 68, 43821 (2003).

[118] Tailoring Teleportation to the Quantum Alphabet, P.T. Cochrane and T.C. Ralph, Physical Review A 67, 22313 (2003).

[119] Experimental requirements for Grover's algorithm in optical quantum computation, J.L. Dodd, T.C. Ralph, and G.J. Milburn, Physical Review A 68, 42328 (2003).

[120] Comparison of LOQC C-sign gates with ancilla inefficiency and an improvement to functionality under these conditions, A.P. Lund, T.B. Bell and T.C. Ralph, Physical Review A 68, 22313 (2003).

[121] Demonstration of an all-optical quantum control-NOT gate, J.L. O'Brien, G.J. Pryde, A.G. White, T.C. Ralph and D. Branning, Nature 426, 264 (2003).

[122] Quantum computation with optical coherent states, T.C. Ralph, A. Gilchrist, G.J. Milburn, W.J. Munro and S. Glancy, Physical Review A 68, 42319 (2003).

[123] Quantum theory of the far-of-resonance cw Raman laser: Heisenberg/Langevin approach, P.A. Roos, S.K. Murphy, L.S. Meng, J.L. Carlsten, T.C. Ralph, A.G. White and J.K. Brasseur, Physical Review A 68, 13802 (2003).

[124] Conditional Two-mode Squeezed Vacuum Teleportation, P.T. Cochrane, T.C. Ralph and G.J. Milburn, Physical Review A 65, 62306 (2002).

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

[126] Non-deterministic gates for photonic single rail quantum logic, A.P. Lund and T.C. Ralph, Physical Review A 66, 32307 (2002).

[127] Linear Optical CNOT Gate in the Coincidence Basis, T.C. Ralph, N.K. Langford, T.B. Bell and A.G. White, Physical Review A 65, 62324 (2002).

[128] Unconditional Continuous Variable Dense Coding, T.C. Ralph and E.H. Huntington, Physical Review A 66, 42321 (2002).

[129] Simple scheme for efficient linear optics quantum gates, T.C. Ralph, A.G. White, W.J. Munro, and G.J. Milburn, Physical Review A 65, 12314 (2002).

[130] Continuous Variable Key Distribution - Beating the 3 dB loss limit, C. Silberhorn, T.C. Ralph, N. Lutkenhaus and G. Leuchs, Physical Review Letters 89, 167901 (2002).

Book Citations