2023

  1. Efficient, ever-ready quantum memory at room temperature for single photons,
    A. C. Leung, W. Y. S. Lau, A. D. Tranter, K. V. Paul, M. Rambach, B. C. Buchler, P. K. Lam, A. G. White, and T. J. Weinhold
    arXiv:2203.12108 (2022).
  2. Precisely determining photon-number in real-time,
    L. Assis Morais, T. Weinhold, M. P. de Almeida, J. Combes, A. Lita, T. Gerrits, S. W. Nam, A. G. White, and G. Gillett
    arXiv:2012.10158 (2020).

2022

  1. Not commuting around Hilbert space,
    A. G. White
    Nature Physics (2022).
    doi:10.1038/s41567-022-01860-0

2021

  1. Robust and Efficient High-dimensional Quantum State Tomography,
    M. Rambach, M. Qaryan, M. Kewming, C. Ferrie, A. G. White, and J. Romero
    Physical Review Letters 126, 100402 (2021).
    doi:10.1103/PhysRevLett.126.100402

2020

  1. Increasing communication capacity via superposition of order,
    K. Goswami, Y. Cao, G. A. Paz-Silva, J. Romero, and A. G. White
    Physical Review Research 2, 033292 (2020).
    doi:10.1103/PhysRevResearch.2.033292
  2. Hiding Ignorance Using High Dimensions,
    M. J. Kewming, S. Shrapnel, A. G. White, and J. Romero
    Physical Review Letters 124, 250401 (2020).
    doi:10.1103/PhysRevLett.124.250401

2019

  1. Optimal imaging of remote bodies using quantum detectors,
    L. A. Howard, G. G. Gillett, M. E. Pearce, R. A. Abrahao, T. J. Weinhold, P. Kok, and A. G. White
    Physical Review Letters 123, 143604 (2019).
    doi:10.1103/PhysRevLett.123.143604
  2. Quantum Hypercube States,
    L. A. Howard, T. J. Weinhold, F. Shahandeh, J. Combes, M. R. Vanner, A. G. White, and M. Ringbauer
    Physical Review Letters 123, 020402 (2019).
    doi:10.1103/PhysRevLett.123.020402
  3. Charting the Australian quantum landscape,
    T. M. Roberson and A. G. White
    Quantum Science and Technology 4, 020505 (2019).
    doi:10.1088/2058-9565/ab02b4

2018

  1. Certification and quantification of multilevel quantum coherence,
    M. Ringbauer, T. R. Bromley, M. Cianciaruso, S. Lau, G. Adesso, A. G. White, A. Fedrizzi, and M. Piani
    Physical Review X 8, 041007 (2018).
    doi:10.1103/PhysRevX.8.041007
  2. Hectometer Revivals of Quantum Interference,
    M. Rambach, W. Y. Sarah Lau, S. Laibacher, V. Tamma, A. G. White, and T. J. Weinhold
    Physical Review Letters 121, 093603 (2018).
    doi:10.1103/PhysRevLett.121.093603
  3. Indefinite Causal Order in a Quantum Switch,
    K. Goswami, C. Giarmatzi, M. Kewming, F. Costa, C. Branciard, J. Romero, and A. G. White
    Physical Review Letters 121, 090503 (2018).
    doi:10.1103/PhysRevLett.121.090503
  4. Multi-time quantum correlations with no spatial analogue,
    M. Ringbauer, F. Costa, M . E. Goggin, A. G. White, and A. Fedrizzi
    npj Quantum Information 4, 37 (2018).
    doi:10.1038/s41534-018-0086-y
  5. Unifying Framework for spatial and temporal quantum correlations,
    F. Costa, M. Ringbauer, M. E. Goggin, A. G. White, and A. Fedrizzi
    Physical Review A 98, 012328 (2018).
    doi:10.1103/PhysRevA.98.012328
  6. Generation of Mechanical Interference Fringes by Multi-Photon Counting,
    M. Ringbauer, T. J. Weinhold, L. A. Howard, A. G. White, and M. R. Vanner
    New Journal of Physics 20, 053042 (2018).
    doi:10.1088/1367-2630/aabb8d
  7. Challenging local realism with human choices,
    The BIG Bell Test Collaboration
    Nature 557, 212 (2018).
    doi:10.1038/s41586-018-0085-3

2017

  1. High-performance semiconductor quantum-dot single-photon sources,
    P. Senellart, G. Solomon, and A. G. White
    Nature Nanotechnology 12, 1026–1039 (2017).
    doi:10.1038/nnano.2017.218
  2. A solid-state single-photon filter,
    L. de Santis, C. Antón, B. Reznychenko, N. Somaschi, G. Coppola, J. Senellart, C. Gómez, A. Lemaître, I. Sagnes, A. G. White, L. Lanco, A. Auffeves, and P. Senellart
    Nature Nanotechnology 12, 663–667 (2017).
    doi:10.1038/nnano.2017.85
  3. Active demultiplexing of single-photons from a solid-state source,
    F. Lenzini, B. Haylock, J. C. Loredo, R. A. Abrahao, N. A. Zakaria, S. Kasture, I. Sagnes, A. Lemaitre, H.-P. Phan, D. V. Dao, P. Senellart, M. P. Almeida, A. G. White, and M. Lobino
    Laser & Photonics Reviews 11, 1600297 (2017).
    doi:10.1002/lpor.201600297
  4. BosonSampling with single-photon Fock states from a bright solid-state source,
    J. C. Loredo, M. A. Broome, P. Hilaire, O. Gazzano, I. Sagnes, A. Lemaitre, M. P. Almeida, P. Senellart, and A. G. White
    Physical Review Letters 118, 130503 (2017).
    doi:10.1103/PhysRevLett.118.130503
  5. Roadmap on structured light,
    H. Rubinsztein-Dunlop, A. Forbes, M. V. Berry, M. R. Dennis, D. L. Andrews, M. Mansuripur, C. Denz, C. Alpmann, P. Banzer, T. Bauer, E. Karimi, L. Marrucci, M. Padgett, M. Ritsch-Marte, N. M. Litchinitser, N. P. Bigelow, C. Rosales-Guzmán, A. Belmonte, J. P. Torres, T. W. Neely, M. Baker, R. Gordon, A. B. Stilgoe, J. Romero, A. G. White, R. Fickler, A. E. Willner, G. Xie, B. McMorran and A. M. Weiner
    Journal of Optics 19, 013001 (2017).
    doi:10.1088/2040-8978/19/1/013001

2016

  1. Sub-megahertz linewidth single photon source,
    M. Rambach, A. Nikolova, T. J. Weinhold, and A. G. White
    APL Photonics 1, 096101 (2016).
    doi:10.1063/1.4966915
  2. Experimental Test of Nonlocal Causality,
    M. Ringbauer, C. Giarmatzi, R. Chaves, F. Costa, A. G. White, and A. Fedrizzi
    Science Advances 2, e1600162 (2016).
    doi:10.1126/sciadv.1600162
  3. Engineering integrated photonics for heralded quantum gates,
    T. Meany, D. N. Biggerstaff, M. A. Broome, A. Fedrizzi, M. Delanty, A. Gilchrist, G. D. Marshall, M. J. Steel, A. G. White, and M. J. Withford
    Scientific Reports 6, 25126 (2016).
    doi:10.1038/srep25126
  4. Enhancing quantum transport in a photonic network using controllable decoherence,
    D. N. Biggerstaff, R. Heilmann, A. A. Zecevik, M. Gräfe, M. A. Broome, A. Fedrizzi, S. Nolte, A. Szameit, A. G. White, and I. Kassal
    Nature Communications 7, 11282 (2016).
    doi:10.1038/ncomms11282
  5. Scalable performance in solid-state single-photon sources,
    J. C. Loredo, N. A. Zakaria, N. Somaschi, C. Anton, L. De Santis, V. Giesz, T. Grange, M. A. Broome, O. Gazzano, G. Coppola, I. Sagnes, A. Lemaitre, A. Auffeves, P. Senellart, M. P. Almeida, and A. G. White
    Optica 3, 433 (2016).
    doi:10.1364/OPTICA.3.000433
  6. Near optimal single photon sources in the solid state,
    N. Somaschi, V. Giesz, L. De Santis, J. C. Loredo, M. P. Almeida, G. Hornecker, S. L. Portalupi, T. Grange, C. Anton, J. Demory, C. Gomez, I. Sagnes, N. D. Lanzillotti Kimura, A. Lemaitre, A. Auffeves, A. G. White, L. Lanco, P. Senellart
    Nature Photonics 10, 340 (2016).
    doi:10.1038/nphoton.2016.23
  7. Measuring Entanglement in a Photonic Embedding Quantum Simulator,
    J. C. Loredo, M. P. Almeida, R. Di Candia, J. S. Pedernales, J. Casanova, E. Solano, and A. G. White
    Physical Review Letters 116, 070503 (2016)
    doi:10.1103/PhysRevLett.116.070503

2015

  1. Demonstration of an exposed-core fiber platform for two-photon rubidium spectroscopy,
    C. Perrella, H. P. Griesser, P. S. Light, R. Kostecki, T. M. Stace, H. Ebendorff-Heidepriem, T. M. Monro, A. G. White, and A. N. Luiten
    Physical Review Applied 4, 014013 (2015).
    doi:10.1103/PhysRevApplied.4.014013
  2. Photon Sorting, Efficient Bell Measurements and a Deterministic CZ 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).
    doi:10.1103/PhysRevLett.114.173603
  3. Characterizing quantum dynamics with initial system-environment correlations,
    M. Ringbauer, C. J. Wood, K. Modi, A. Gilchrist, A. G. White, and A. Fedrizzi
    Physical Review Letters 114, 090402 (2015).
    doi:10.1103/PhysRevLett.114.090402
  4. Measurements on the reality of the wavefunction,
    M. Ringbauer, B. Duffus, C. Branciard, E. G. Cavalcanti, A. G. White, and A. Fedrizzi
    Nature Physics 11, 249 (2015).
    doi:10.1038/nphys3233

2014

  1. Information Causality in the Quantum and Post-Quantum Regime,
    M. Ringbauer, A. Fedrizzi, D. W. Berry, and A. G. White
    Scientific Reports 4, 6955 (2014).
    doi:10.1038/srep06955
  2. Experimental simulation of closed timelike curves,
    M. Ringbauer, M. A. Broome, C. R. Myers, A. G. White, and T. C. Ralph
    Nature Communications 5, 04145 (2014).
    doi:10.1038/ncomms5145
  3. Entanglement-free certification of entangling gates,
    M. P. de Almeida, M. Gu, A. Fedrizzi, M. A. Broome, T. C. Ralph, and A. G. White
    Physical Review A 89, 042323 (2014).
    doi:PhysRevA.89.042323
  4. Observation of Entanglement-Dependent Two-Particle Holonomic Phase,
    J. C. Loredo, M. A. Broome, D. H. Smith, and A. G. White
    Physical Review Letters 112, 143603 (2014).
    doi:10.1103/PhysRevLett.112.143603
  5. Experimental Joint Quantum Measurements with Minimum Uncertainty,
    M. Ringbauer, D. N. Biggerstaff, M. A. Broome, A. Fedrizzi, C. Branciard, and A. G. White
    Physical Review Letters 112, 020401 (2014).
    doi:10.1103/PhysRevLett.112.020401

2013

  1. Experimental Distribution of Entanglement with Separable Carriers,
    A. Fedrizzi, M. Zuppardo, G. G. Gillett, M. A. Broome, M. de Almeida, M. Paternostro, A. G. White, and T. Paterek
    Physical Review Letters 111, 230504 (2013).
    doi:10.1103/PhysRevLett.111.230504
  2. High-efficiency cross-phase modulation in a gas-filled waveguide,
    C. Perrella, P. S. Light, J. D. Anstie, F. Benabid, T. M. Stace, A. G. White, and A. N. Luiten
    Physical Review A 88, 013819 (2013).
    doi:10.1103/PhysRevA.88.013819
  3. Entangling Quantum-Logic Gate Operated with an Ultrabright Semiconductor Single-Photon Source,
    O. Gazzano, M. P. Almeida, A. K. Nowak, S. L. Portalupi, A. Lemaître, I. Sagnes, A. G. White, and P. Senellart
    Physical Review Letters 110, 250501 (2013).
    doi:10.1103/PhysRevLett.110.250501
  4. 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, pp. 13450-13458 (2013).
    doi:10.1364/OE.21.013450
  5. 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).
    doi:10.1126/science.1231440

2012

  1. Observation of topologically protected bound states in a one dimensional photonic system,
    T. Kitagawa, M. A. Broome, A. Fedrizzi, M. S. Rudner, E. Berg, I. Kassal, A. Aspuru-Guzik, E. Demler, and A. G. White
    Nature Communications 3, 882 (2012).
    doi:10.1038/ncomms1872
  2. Conclusive quantum steering with superconducting transition edge sensors,
    D. H. Smith, G. G. Gillett, M. P. de Almeida, C. Branciard, A. Fedrizzi, T. J. Weinhold, A. Lita, B. Calkins, T. Gerrits, H. M. Wiseman, S. W. Nam, and A. G. White
    Nature Communications 3, 625 (2012).
    doi:10.1038/ncomms1628

2011

  1. Reducing multi-photon rates in pulsed down-conversion by temporal multiplexing,
    M. A. Broome, M. P. Almeida, A. Fedrizzi and A. G. White
    Optics Express 19, 22698 (2011).
    doi:10.1364/OE.19.0226983
  2. Two-photon quantum walks in an elliptical direct-write waveguide array,
    J. O. Owens, M. A. Broome, D. N. Biggerstaff, M. E. Goggin, A. Fedrizzi, T. Linjordet, M. Ams, G. D. Marshall, J. Twamley, M. J. Withford, and A. G. White
    New Journal of Physics 13, 075003 (2011).
    doi:10.1088/1367-2630/13/7/075003
  3. Hardy's paradox and violation of a state-independent Bell inequality in time,
    A. Fedrizzi, M. P. Almeida, M. A. Broome, A. G. White, and M. Barbieri
    Physical Review Letters 106, 200402 (2011).
    doi:10.1103/PhysRevLett.106.200402
  4. Information complementarity in quantum physics,
    A. Fedrizzi, B. Škerlak, T. Paterek, M. P. de Almeida, and A. G. White,
    New Journal of Physics 13, 053038 (2011).
    doi:10.1088/1367-2630/13/5/053038
  5. Efficient measurement of quantum dynamics via compressive sensing,
    A. Shabani, R. L. Kosut, M. Mohseni, H. Rabitz, M. A. Broome, M. P. Almeida, A. Fedrizzi, and A. G. White,
    Physical Review Letters 106, 100401 (2011).
    doi:10.1103/PhysRevLett.106.100401
  6. Single-photon device requirements for operating linear optics quantum computing outside the post-selection basis,
    T. Jennewein, M. Barbieri, and A. G. White
    Journal of Modern Optics 58, 276 (2011).
    doi:10.1080/09500340.2010.546894
  7. Violation of the Leggett-Garg inequality with weak measurements of photons,
    M. E. Goggin, M. P. Almeida, M. Barbieri, B. P. Lanyon, J. L. O'Brien, A. G. White, and G. J. Pryde,
    Proceedings of the National Academy of Sciences 108, 1256 (2011).
    doi:10.1073/pnas.1005774108
  8. Engineered optical nonlinearity for a quantum light source,
    A. M. Brańczyk, A. Fedrizzi, T. M. Stace, T. C. Ralph, and A. G. White
    Optics Express 19, 55 (2011).
    doi:10.1364/OE.19.000055

2010

  1. Matchgate quantum computing and non-local process analysis,
    S. Ramelow, A. Fedrizzi, A. M. Steinberg, and A. G. White,
    New Journal of Physics 12 083027 (2010).
    doi:10.1088/1367-2630/12/8/083027.
    Highlighted in the New Journal of Physics Best of 2010.
  2. Discrete single-photon quantum walks with tunable decoherence,
    M. A. Broome, A. Fedrizzi, B. P. Lanyon, I. Kassal, A. Aspuru-Guzik, and A. G. White,
    Physical Review Letters 104, 153602 (2010).
    doi:10.1103/PhysRevLett.104.153602
  3. Experimental feedback control of quantum systems using weak measurements,
    G. G. Gillett, R. B. Dalton , B. P. Lanyon, M. P. Almeida, M. Barbieri, G. J. Pryde, J. L. O'Brien, K. J. Resch, S. D. Bartlett and A. G. White
    Physical Review Letters 104, 080503 (2010).
    doi:10.1103/PhysRevLett.104.080503
  4. Towards Quantum Chemistry on a Quantum Computer,
    B. P. Lanyon, J. D. Whitfield, G. G. Gillett, M. E. Goggin, M. P. Almeida, I. Kassal, J. D. Biamonte, M. Mohseni, B. J. Powell, M. Barbieri, A. Aspuru-Guzik and A. G. White,
    Nature Chemistry 2, 106 (2010).
    doi:10.1038/nchem.483
    Selected in the First Anniversary Highlights of Nature Chemistry.

2009

  1. Complementarity in variable strength quantum non-demolition measurements,
    M. Barbieri, M. E. Goggin, M. P. Almeida, B. P. Lanyon and A. G. White,
    New Journal of Physics 11, 093012 (2009).
    doi:10.1088/1367-2630/11/9/093012
  2. Parametric downconversion and optical quantum gates: two's company, four's a crowd,
    M. Barbieri, T. J. Weinhold, B. P. Lanyon, A. Gilchrist, K. J. Resch, M. P. Almeida and A. G. White,
    Journal of Modern Optics 56, 209 (2009).
    doi:10.1080/09500340802337374
  3. Quantum computing using shortcuts through higher dimensions,
    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).
    doi:10.1038/nphys1150

2008

  1. Understanding photonic quantum-logic gates: The road to fault tolerance,
    T. J. Weinhold, A. Gilchrist, K. J. Resch, A. C. Doherty, J. L. O'Brien, G. J. Pryde, and A. G. White,
    arXiv 0808.0794 (2008).
  2. Experimental quantum computing without entanglement,
    B. P. Lanyon, M. Barbieri, M. P. Almeida, and A. G. White
    Physical Review Letters 101, 200501 (2008).
    doi:10.1103/PhysRevLett.101.200501
  3. The secret world of shrimps: polarisation vision at its best,
    S. Kleinlogel and A. G. White,
    PLoS ONE 3, e2190 (2008).
    doi:10.1371/journal.pone.0002190
  4. Manipulating biphotonic qutrits,
    B. P. Lanyon, T. J. Weinhold, N. K. Langford, J. L. O'Brien, K. J. Resch, A. Gilchrist, and A. G. White,
    Physical Review Letters 100, 060504 (2008).
    doi:10.1103/PhysRevLett.100.060504

2007

  1. Experimental demonstration of Shor's algorithm with quantum entanglement,
    B. P. Lanyon, T. J. Weinhold, N. K. Langford, M. Barbieri, D. F. V. James, A. Gilchrist, and A. G. White,
    Physical Review Letters 99, 250505 (2007).
    doi:10.1103/PhysRevLett.99.250505
  2. Time-reversal and super-resolving phase measurements,
    K. J. Resch, K. L. Pregnell, R. Prevedel, A. Gilchrist, G. J. Pryde, J. L. O'Brien, and A. G. White,
    Physical Review Letters 98, 223601 (2007).
    doi:10.1103/PhysRevLett.98.223601
  3. Entanglement generation by Fock- state filtration,
    K. J. Resch, J. L. O'Brien, T. J. Weinhold, K. Sanaka, B. P. Lanyon, and N. K. Langford, and A. G. White,
    Physical Review Letters 98, 203602 (2007).
    doi:10.1103/PhysRevLett.98.203602
  4. Measuring two-qubit gates,
    A. G. White, A. Gilchrist, G. J. Pryde, J. L. O'Brien, M. J. Bremner, and N. K. Langford,
    Journal of the Optical Society of America B 24, 172-183 (2007).
  5. Source of triggered entangled photon pairs?,
    A. Gilchrist, K. J. Resch, and A. G. White,
    Nature 445, E4 (2007).
    doi:10.1038/nature05546

2006

  1. Study of optical properties of electropolymerised melanin films by photopyroelectric spectroscopy,
    J. E. de Albuquerque, C. Giacomantonio, A. G. White, and P. Meredith,
    European Biophysics Journal with Biophysics Letters 35, 190-195 (2006).

2005

  1. Demonstration of a simple entangling optical gate and its use in Bell-state analysis,
    N. K. Langford, T. J. Weinhold, R. Prevedel, A. Gilchrist, J. L. O'Brien, G. J. Pryde, and A. G. White,
    Physical Review Letters 95, 210504 (2005).
  2. Determination of thermal and optical parameters of melanins by photopyroelectric spectroscopy,
    J. E. de Albuquerque, C. Giacomantonio, A. G. White, and P. Meredith,
    Applied Physics Letters 87, 061920 (2005).
  3. Measuring a photonic qubit without destroying it - Response,
    G. J. Pryde, J. L. O'Brien, A. G. White, S. D. Bartlett, and T. C. Ralph,
    Physical Review Letters 95, 048902 (2005).
  4. Demonstrating Superior Discrimination of Locally Prepared States Using Nonlocal Measurements,
    G. J. Pryde, J. L. O'Brien, A. G. White, and S. D. Bartlett,
    Physical Review Letters 94, 220406 (2005).
  5. Measurement of Quantum Weak Values of Photon Polarisation,
    G. J. Pryde, J. L. O'Brien, A. G. White, T. C. Ralph, and H. M. Wiseman,
    Physical Review Letters 94, 220405 (2005).
  6. High-fidelity Z-measurement error encoding of optical qubits,
    J. L. O'Brien, G. J. Pryde, A. G. White, and T. C. Ralph,
    Physical Review A 71, 060303(R) (2005).

2004

  1. Laser frequency locking by direct measurement of detuning,
    A. Ratnapala, C. J. Vale, A. G. White, M. D. Harvey, N. R. Heckenberg, and H. Rubinsztein-Dunlop,
    Optics Letters 29, 2704 (2004).
  2. Quantum process tomography of a controlled-NOT gate,
    J. L. O'Brien, G. J. Pryde, A. Gilchrist, D. F. V. James, N. K. Langford, T. C. Ralph, and A. G. White,
    Physical Review Letters 93, 080502 (2004).
  3. Measuring entangled qutrits and their use for quantum bit commitment,
    N. K. Langford, R. B. Dalton, M. D. Harvey, J. L. O'Brien, G. J. Pryde, A. Gilchrist, S. D. Bartlett, and A. G. White,
    Physical Review Letters 93, 053601 (2004).
  4. 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).

2003

  1. Creation of maximally entangled photon number states using optical fibre multiports,
    G. J. Pryde and A. G. White,
    Physical Review A, 68, 052315 (2003).
  2. Demonstration of an all-optical quantum controlled-NOT gate,
    J. L. O'Brien, G. J. Pryde, A. G. White, T. C. Ralph, and D. Branning,
    Nature 426, 264 (2003).
    Click here for press and media accounts of this paper.
  3. Quantum theory of the far-off-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, 013802 (2003).
  4. Frequency locking by analysis of orthogonal modes,
    M. D. Harvey and A. G. White,
    Optics Communication 221, 163 (2003).
  5. Ancilla-assisted quantum process tomography,
    J. B. Altepeter, D. Branning, E. Jeffrey, T. C. Wei, P. G. Kwiat, R. T. Thew, J. L. O'Brien, M. A. Nielsen, and A. G. White,
    Physical Review Letters 90 193601 (2003).
  6. Input states for quantum gates,
    A. Gilchrist, W. J. Munro, and A. G. White,
    Physical Review A 67, 040304(R) (2003).

2002

  1. Entanglement creation using quantum interrogation,
    A. Gilchrist, A. G. White and W. J. Munro,
    Physical Review A 66, 012106 (2002).
  2. Qudit quantum-state tomography,
    R. T. Thew, K. Nemoto, A. G. White, and W. J. Munro,
    Physical Review A 66, 012303 (2002).
  3. Linear optical controlled-NOT gate in the coincidence basis,
    T. C. Ralph, N. K. Langford, T. B. Bell, and A. G. White,
    Physical Review A 65, 062324 (2002).

2001

  1. A Raman approach to quantum logic in Calcium-like ions,
    M. S. Gulley, A. G. White, and D. F. V. James,
    x:quant-ph/0112117 (2001).
  2. Exploring Hilbert space: Accurate characterisation of quantum information,
    A. G. White, D. F. V. James, W. J. Munro, and P. G. Kwiat,
    Physical Review A 65, 012301 (2001).
  3. Simple Scheme for Efficient Linear Optics Quantum Gates,
    T. C. Ralph, A. G. White, and G. J. Milburn,
    Physical Review A 65, 012314 (2001).
  4. Transforming chaos to periodic oscillations,
    G. Kociuba, N. R. Heckenberg, A. G. White,
    Physical Review E 64, 056220 (2001).
  5. Measurement of qubits,
    D. F. V. James, P. G. Kwiat, W. J. Munro, and A. G. White,
    Physical Review A 64, 052312 (2001).
  6. Maximizing the entanglement of two mixed qubits,
    W. J. Munro, D. F. V. James, A. G. White, and P. G. Kwiat,
    Physical Review A 64, 030302 (R) (2001).
  7. The Bell inequality: a measure of entanglement?,
    W. J. Munro, K. Nemoto, and A. G. White,
    Journal of Modern Optics 48, 1239-1246 (2001).

2000

  1. Kerr noise reduction and squeezing,
    A. G. White, P. K. Lam, D. E. McClelland, H.-A. Bachor, and W. J. Munro,
    Journal of Optics B: Quantum and Semiclassical Optics 2, 553-561 (2000).
  2. Experimental verification of decoherence-free subspaces,
    P. G. Kwiat, A. J. Berglund, J. B. Altepeter, and A. G. White,
    Science 290, 498-501 (2000).
  3. Observation of Power-Law Scaling for Phase Transitions in Linear Trapped Ion Crystals,
    D. G. Enzer, M. M. Schauer, J. J. Gomez, M. S. Gulley, M. H. Holzscheiter, P. G. Kwiat, S. K. Lamoreaux, C. G. Peterson, V. D. Sandberg, D. Tupa, A. G. White, R. J. Hughes, and D. F. V. James,
    Physical Review Letters 85, 2466-2470 (2000).
  1. Entangled state quantum cryptography: Eavesdropping on the Ekert protocol,
    D. S. Naik, C. G. Peterson, A. G. White, A. J. Berglund, and P. G. Kwiat,
    Physical Review Letters 84, 4733-4736 (2000).
  2. Grover's search algorithm: An optical approach,
    P. G. Kwiat, J. R. Mitchell, P. D. D. Schwindt, and A. G. White,
    Journal of Modern Optics 47, 257-266 (2000).

1999

  1. High-efficiency quantum interrogation measurements via the quantum Zeno effect,
    P. G. Kwiat, A. G. White, J. R. Mitchell, O. Nairz, G. Weihs, H. Weinfurter, and A. Zeilinger,
    Physical Review Letters 83, 4725-4728 (1999).
  2. Non-maximally entangled states: production, characterisation and utilisation,
    A. G. White, D. F. V. James, P. H. Eberhard and P. G. Kwiat,
    Physical Review Letters 83, 3103-3106 (1999).
  3. Ultra-bright source of polarisation-entangled photons,
    P. G. Kwiat, E. Waks, A. G. White, I. Appelbaum, and P. H. Eberhard,
    Physical Review A 60, R773-R776 (1999).

1998

  1. "Interaction-free" imaging,
    A. G. White, J. R. Mitchell, O. Nairz, and P. G. Kwiat,
    Physical Review A 58, 605-608 (1998).
  2. The Los Alamos Trapped Ion Quantum Computer Experiment,
    R. J. Hughes, D. F. V. James, J. J. Gomez, M. S. Gulley, M. H. Holzscheiter, P. G. Kwiat, S. L. Lamoreaux, C. G. Peterson, V. D. Sandberg, M. M. Schauer, C. M. Simmons, C. E. Thorburn, D. Tupa, P. Z. Wang and A. G. White,
    Fortschritte der Physik 46, 329-361 (1998).

1997

  1. Classical and quantum signatures of competing χ(2) nonlinearities,
    A. G. White, P. K. Lam, M. S. Taubman, M. A. M. Marte, S. Schiller, D. E. McClelland and H.-A. Bachor,
    Physical Review A 55, 4511-4515 (1997).
  2. Classical and quantum properties of the subharmonic-pumped parametric oscillator,
    S. Schiller, R. Bruckmeier and A. G. White,
    Optics Communications 138, 158-171 (1997).
  3. Noiseless amplification in cavity based optical systems with an internal two-photon process: Comment,
    A. G. White, T. C. Ralph, H.-A. Bachor,
    Journal of Modern Optics 44, 651-652 (1997).

1996

  1. Experimental test of modular noise propagation theory for quantum optics,
    A. G. White, M. S. Taubman, T. C. Ralph, P. K. Lam, D. E. McClelland, & H.-A. Bachor,
    Physical Review A 54, 3400-3404 (1996).
  2. Cascaded second-order nonlinearity in an optical cavity,
    A. G. White, J. Mlynek and S. Schiller,
    Europhysics Letters 35, 425-430 (1996).
  3. Active versus passive squeezing via second harmonic generation,
    A. G. White, T. C. Ralph, H.-A. Bachor,
    Journal of the Optical Society of America B 13, 1337-1346 (1996).

1995

  1. Progress in the search for the optimum light source: squeezing experiments with a frequency doubler,
    H.-A. Bachor, T. C. Ralph, M. S. Taubman, A. G. White, C. C. Harb, and D.E.McClelland,
    Journal of Quantum and Semiclassical Optics 7, 715-726 (1995).
  2. Squeezed light from second harmonic generation: experiment versus theory,
    T. C. Ralph, M. S. Taubman, A. G. White, D. E. McClelland, and H.-A. Bachor,
    Optics Letters 20, 1316-1318 (1995).
  3. Retrieving squeezing from classically noisy light,
    T. C. Ralph and A. G. White,
    Journal of the Optical Society of America B 12, 833-839 (1995).

1992

  1. Generation of optical phase singularities by computer-generated holograms,
    N. R. Heckenberg, R. McDuff, C. P. Smith, and A. G. White,
    Optics Letters 17, 221-223 (1992).

1991

  1. Interferometric measurements of phase singularities in the output of a visible laser,
    A. G. White, C. P. Smith, N. R. Heckenberg, H. Rubinsztein-Dunlop, R. McDuff, C. O. Weiss and C. Tamm,
    Journal of Modern Optics 38, 2531-2541 (1991).
  2. Gyromagnetic ratios of low-lying rotational states in 156, 158, 160Gd,
    A. E. Stuchbery, A. G. White, G. D. Dracoulis, K. J. Schiffer and B. Fabricius,
    Zeitschrift für Physik A - Hadrons and Nuclei 338, 135-138 (1991).