Publications

2017     2016     2015     2014     2013     2012     2011     2010     2009     2008     2007     2006     2005     2004     2003     2002     2001     2000     

Quantum Communication

[1]
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).
[2]
Unconditional room-temperature quantum memory,
M. Hosseini, G. Campbell, B.M. Sparkes, P.K. Lam and B.C. Buchler,
Nature Physics 7, 794 (2011).
[3]
Photon-echo quantum memories in inhomogeneously broadened two-level atoms,
D.L. McAuslan, P.M. Ledingham, W.R. Naylor, S.E. Beavan, M.P. Hedges, M.J. Sellars and J.J. Longdell,
Physical Review A 84, 022309 (2011).
[4]
Spatial reshaping of a squeezed state of light,
J.F. Morizur, S. Armstrong, N. Treps, J. Janousek and H.A. Bachor,
The European Physical Journal D 61, 237 (2011).
[5]
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).
[6]
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).
[7]
Atom–light interactions: The nonlinearity of single photons,
P.K. Lam and B.C. Buchler,
Nature Photonics 5, 580 (2011).
[8]
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).
[9]
Photon echo without a free induction decay in a double-Lambda system,
S.E. Beavan, P.M. Ledingham, J.J. Longdell and M.J. Sellars,
Optics Letters 36, 1272 (2011).

Optical Quantum Computation

[10]
Entangling moving cavities in non-inertial frames,
T.G. Downes, I. Fuentes and T.C. Ralph,
Physical Review Letters 106, 210502 (2011).
[11]
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).
[12]
Experimental Information complementarity of two-qubit states,
A. Fedrizzi, B. Skerlak, T. Paterek, M.P. de Almeida and A.G. White,
New Journal Of Physics 13, 053038 (2011).
[13]
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).
[14]
Imaging of Trapped Ions with a Microfabricated Optic for Quantum Information Processing,,
E.W. Streed, B.G. Norton, A. Jechow, T.J. Weinhold and D. Kielpinski,
Physical Review Letters 106, 010502 (2011).
[15]
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).
[16]
Teleportation of Nonclassical Wave Packets of Light,
N. Lee, H. Benichi, Y. Takeno, S. Takeda, J.G. Webb, E.H. Huntington and A. Furusawa,
Science 332, 330 (2011).
[17]
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).
[18]
Space-time qubits,
J.L. Pienaar, C.R. Myers and T.C. Ralph,
Physical Review A 84, 022315 (2011).
[19]
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).
[20]
Demonstration of Unconditional One-Way Quantum Computations for Continuous Variables,
R. Ukai, N. Iwata, Y. Shimokawa, S.C. Armstrong, A. Politi, J. Yoshikawa, P. van Loock and A Furusawa,
Physical Review Letters 106, 240504 (2011).
[21]
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).
[22]
[23]
Coherent state topological cluster state production,
C.R. Myers and T.C. Ralph,
New Journal Of Physics 13, 115015 (2011).
[24]
Multi-walker discrete time quantum walks on arbitrary graphs, their properties and their photonic implementation,
P.P. Rohde, A. Schreiber, M. Stefanak, I. Jex and C. Silberhorn,
New Journal Of Physics 13, 013001 (2011).
[25]
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).
[26]
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).
[27]
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 Of The United States Of America 108, 1256 (2011).
[28]
Entanglement between the Future and the Past in the Quantum Vacuum,
S.J. Olson and T.C. Ralph,
Physical Review Letters 106, 110404 (2011).

Silicon Quantum Computation

[29]
Engineered valley-orbit splittings in quantum-confined nanostructures in silicon,
R. Rahman, J. Verduijn, N. Kharche, G.P. Lansbergen, G. Klimeck, L.C.L. Hollenberg and S. Rogge,
Physical Review B 83, 195323 (2011).
[30]
Suppression of low-frequency noise in two-dimensional electron gas at degenerately doped Si:P δ layers,
S. Shamim, S. Mahapatra, C. Polley, M.Y. Simmons and A. Ghosh,
Physical Review B 83, 233304 (2011).
[31]
Single-electron shuttle based on a silicon quantum dot,
K.W. Chan, M. Mottonen, A. Kemppinen, N.S. Lai, K.Y. Tan, W.H. Lim and A.S. Dzurak,
Applied Physics Letters 98, 212103 (2011).
[32]
Spin filling of valley-orbit states in a silicon quantum dot,
W.H. Lim, C.H. Yang, F.A. Zwanenburg and A.S. Dzurak,
Nanotechnology 22, 335704 (2011).
[33]
Phosphorus atomic layer doping of germanium by the stacking of multiple δ layers,
G. Scappucci, G. Capellini, W.M. Klesse and M.Y. Simmons,
Nanotechnology 22, 375203 (2011).
[34]
Electric field reduced charging energies and two-electron bound excited states of single donors in silicon,
R. Rahman, G.P. Lansbergen, J. Verduijn, G.C. Tettamanzi, S.H. Park, N. Collaert, S. Biesemans, G. Klimeck, L.C.L. Hollenberg and S. Rogge,
Physical Review B 84, 115428 (2011).
[35]
Lifetime-enhanced transport in silicon due to spin and valley blockade,
G. Lansbergen, R. Rahman, J. Verduijn, G. Tettamanzi, N. Collaert, S. Biesemans, G. Klimeck and S. Rogge,
Physical Review Letters 107, 136602 (2011).
[36]
Integrated logic circuits using single-atom transistors,
J. Mol, J. Verduijn, R. Levine, F. Remacle and S. Rogge,
Proceedings Of The National Academy Of Sciences Of The United States Of America 108, 13969 (2011).
[37]
Dynamically controlled charge sensing of a few-electron silicon quantum dot,
C.H. Yang, W.H. Lim, F.A. Zwanenburg and A.S. Dzurak,
AIP Advances 1, 042111 (2011).
[38]
Effect of boron on formation of interstitial-related luminescence centres in ion implanted silicon,
J.C. McCallum, B.J. Villis, B.C. Johnson, N. Stavrias, J.E. Burgess, S. Charnvanichborikarn, J. Wong-Leung, J.S. Williams and C. Jagadish,
Physica Status Solidi A 208, 620 (2011).
[39]
Charge sharing in multi-electrode devices for deterministic doping studied by IBIC,
L.M. Jong, J.N. Newnham, C. Yang, J.A. Van Donkelaar, F.E. Hudson, A.S. Dzurak and D.N. Jamieson,
Nuclear Instruments And Methods In Physics Research Section B: Beam Interactions With Materials And Atoms 269, 2336 (2011).
[40]
Overlapping-gate architecture for silicon Hall bar MOSFET devices in the low electron density and high magnetic field regime,
L.H. Willems Van Beveren, K.Y. Tan, N. Lai, O. Klochan, A.S. Dzurak and A.R. Hamilton,
Materials Science Forum 700, 93 (2011).
[41]
Charge Sensing of Precisely Positioned P Donors in Si,
S. Mahapatra, H. Büch and M.Y. Simmons,
Nano Letters 11, 4376 (2011).
[42]
Comparison of nickel silicide and aluminium ohmic contact metallizations for low-temperature quantum transport measurements,
C.M. Polley, W.R. Clarke and M.Y. Simmons,
Nanoscale Research Letters 6, 538 (2011).
[43]
Single-Electron Capacitance Spectroscopy of Individual Dopants in Silicon,
M. Gasseller, M. DeNinno, R. Loo, J.F. Harrison, M. Caymax, S. Rogge and S.H. Tessmer,
Nano Letters 11, 5208 (2011).
[44]
Interface trap density metrology from sub-threshold transport in highly scaled undoped Si n-FinFETs,
A. Paul, G.C. Tettamanzi, S. Lee, S. Mehrotra, N. Colleart, S. Biesemans, S. Rogge and G. Klimeck,
Journal Of Applied Physics 110, 124507 (2011).
[45]
Phosphorus δ-doped silicon: mixed-atom pseudopotentials and dopant disorder effects,
D.J. Carter, N.A. Marks, O. Warschkow and D.R. McKenzie,
Nanotechnology 22, 065701 (2011).
[46]
Preparation of the Ge(001) surface towards fabrication of atomic-scale germanium devices,
W.M. Klesse, G. Scappucci, G. Capellini and M.Y. Simmons,
Nanotechnology 22, 145604 (2011).
[48]
Effects of an oxygen environment on the electrical properties of a single CdS nanobelt device,
J. An, K. Xue, W. Xie, Q. Li and J. Xu,
Nanotechnology 22, 135702 (2011).
[49]
Interface Trap Density Metrology of State-of-the-Art Undoped Si n-FinFETs,
G.C. Tettamanzi, A. Paul, S. Lee, S.R. Mehrotra, N. Collaert, S. Biesemans, G. Klimeck and S. Rogge,
IEEE Electron Devices Letters 32, 440 (2011).
[50]
Dimer pinning and the assignment of semiconductor-adsorbate surface structures,
P.V. Smith, O. Warschkow, M.W. Radny, S.R. Schofield and D.R. Belcher,
Journal Of Chemical Physics 134, 064709 (2011).
[51]
A complete fabrication route for atomic-scale, donor-based devices in single-crystal germanium,
G. Scappucci, G. Capellini, B. Johnston, W.M. Klesse, J.A. Miwa and M.Y. Simmons,
Nano Letters 11, 2272 (2011).
[52]
Dual-temperature encapsulation of phosphorus in germanium δ-layers toward ultra-shallow junctions,
G. Scappucci, G. Capellini, W.M. Klesse and M.Y. Simmons,
Journal Of Crystal Growth 316, 81 (2011).
[53]
Quantum computing: Diamond and silicon converge,
A.S. Dzurak,
Nature 479, 47 (2011).
[54]
Pauli spin blockade in a highly tunable silicon double quantum dot,
N.S. Lai, W.H. Lim, C.H. Yang, F.A. Zwanenburg, W.A. Coish, F. Qassemi, A. Morello and A.S. Dzurak,
Scientific Reports 1, 110 (2011).
[55]
Electronic structure of realistically extended atomistically resolved disordered Si:P δ-doped layers,
S. Lee, H. Ryu, H. Campbell, L.C.L. Hollenberg, M.Y. Simmons, and G. Klimeck,
Physical Review B 84, 205309 (2011).

Quantum Resources

[56]
Nonlocality of a single photon: Paths to an Einstein-Podolsky-Rosen-steering experiment,
S.J. Jones and H.M. Wiseman,
Physical Review A 84, 012110 (2011).
[57]
Diamond-based single-photon emitters,
I. Aharonovich, S. Castelletto, D.A. Simpson, C. Su, A.D. Greentree and S. Prawer,
Reports On Progress In Physics 74, 076501 (2011).
[58]
Reconfigurable quantum metamaterials,
J.Q. Quach, C. Su, A.M. Martin, A.D. Greentree and L.C.L. Hollenberg,
Optics Express 19, 11018 (2011).
[59]
Quantum theory of multiple-input–multiple-output Markovian feedback with diffusive measurements,
A. Chia and H.M. Wiseman,
Physical Review A 84, 012120 (2011).
[60]
Efficient quantum computing with weak measurements,
A.P. Lund,
New Journal Of Physics 13, 053024 (2011).
[61]
Complete parametrizations of diffusive quantum monitorings,
A. Chia and H.M. Wiseman,
Physical Review A 84, 012119 (2011).
[62]
Acetic acid on silicon (001): An exercise in chemical analogy,
O. Warschkow, D.R. Belcher, M.W. Radny, S.R. Schofield and P.V. Smith,
Physical Review B 84, 153302 (2011).
[63]
Quantum Filtering for Systems Driven by Fermion Fields,
J.E. Gough, M.I. Guta, M.R. James and H.I. Nurdin,
Communications In Information And Systems 11, 237 (2011).
[64]
On the infeasibility of entanglement generation in Gaussian quantum systems via classical control,
H. Nurdin, I.R. Petersen and M.R. James,
IEEE Transactions On Automatic Control PP, 1 (2011).
[65]
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).
[66]
Dynamic programming and viscosity solutions for the optimal control of quantum spin systems,
S. Sridharan and M.R. James,
Systems And Controls Letters 60, 726 (2011).
[67]
Direct and Indirect Couplings in Coherent Feedback Control of Linear Quantum Systems,
G. Zhang and M.R. James,
IEEE Transactions On Automatic Control 56, 1535 (2011).
[68]
Unified criteria for multipartite quantum nonlocality,
E.G. Cavalcanti, Q.Y. He, M.D. Reid and H.M. Wiseman,
Physical Review A 84, 032115 (2011).
[69]
Quantum feedback for rapid state preparation in the presence of control imperfections,
J. Combes and H.M. Wiseman,
Journal Of Physics B: Atomic, Molecular And Optical Physics 44, 154008 (2011).
[70]
Specker’s parable of the over-protective seer: A road to contextuality, nonlocality and complementarity,
Y.C. Liang, R.W. Spekkens and H.M. Wiseman,
Physics Reports 506, 1 (2011).
[71]
Information erasure without an energy cost,
J.A. Vaccaro and S.M. Barnett,
Proceedings Of The Royal Society A 467, 1170 (2011).
[72]
Characterization of a qubit Hamiltonian using adaptive measurements in a fixed basis,
A. Sergeevich, A. Chandran, J. Combes, S.D. Bartlett and H.M. Wiseman,
Physical Review A 84, 052315 (2011).
[73]
[74]
Tracking an open quantum system using a finite state machine: Stability analysis,
R.I. Karasik and H.M. Wiseman,
Physical Review A 84, 052120 (2011).
[75]
Constructing Arbitrary Steane Code Single Logical Qubit Fault-Tolerant Gates ,
A.G. Fowler,
Quantum Information And Computation 11, 867 (2011).
[76]
Frequency tracking and parameter estimation for robust quantum state estimation,
J.F Ralph, K. Jacobs and C.D. Hill,
Physical Review A 84, 052119 (2011).
[77]
Parallel interaction-free measurement using spatial adiabatic passage,
C.D. Hill, A.D. Greentree and L.C.L. Hollenberg,
New Journal Of Physics 13, 125002 (2011).
[78]
Surface code quantum computing with error rates over 1%,
D.S. Wang, A.G. Fowler and L.C.L. Hollenberg,
Physical Review A 83, 020302 (2011).
[79]
Dynamical decoupling of a single-electron spin at room temperature,
B. Naydenov, F. Dolde, L.T. Hall, C. Shin, H. Fedder, L.C.L. Hollenberg, F. Jelezko and J. Wrachtrup,
Physical Review B: Rapid Communications 83, 018201 (2011).
[80]
Fundamental Quantum Limit to Waveform Estimation,
M. Tsang, H.M. Wiseman and C.M. Caves,
Physical Review Letters 106, 090401 (2011).
[81]
Towards practical classical processing for the surface code ,
A.G. Fowler, A.C. Whiteside and L.C.L. Hollenberg,
Physical Review Letters 108, 180501 (2011).
[82]
Electric-field sensing using single diamond spins,
F. Dolde, H. Fedder, M.W. Doherty, T. Nöbauer, F. Rempp, G. Balasubramanian, T. Wolf, F. Reinhard, L.C.L. Hollenberg, F. Jelezko and J. Wrachtrup,
Nature Physics 7, 459 (2011).
[83]
The negatively charged nitrogen-vacancy centre in diamond: the electronic solution,
M.W. Doherty, N.B. Manson, P. Delaney and L.C.L. Hollenberg,
New Journal Of Physics 13, 025019 (2011).
[84]
Surface code quantum error correction incorporating accurate error propagation,
A.G. Fowler, D.S. Wang and L.C.L. Hollenberg,
Quantum Information And Computation 11, 8 (2011).
[85]
How many bits does it take to track an open quantum system?,
R.I. Karasik and H.M. Wiseman,
Physical Review Letters 106, 020406 (2011).
[86]
Quantum control: Squinting at quantum systems,
H.M. Wiseman,
Nature 470, 178 (2011).
[87]
Coupling slot-waveguide cavities for large-scale quantum optical devices,
C-H. Su, M.P. Hiscocks, B.C. Gibson, A.D. Greentree, L.C.L. Hollenberg and F. Ladouceur,
Optics Express 19, 6362 (2011).
[88]
Stark tuning of the charge states of a two-donor molecule in silicon,
R. Rahman, S.H. Park, G. Klimeck and L.C.L. Hollenberg,
Nanotechnology 22, 225202 (2011).
[89]
Quantum Optical Waveform Conversion,
D. Kielpinski, J.F. Corney and H.M. Wiseman,
Physical Review Letters 106, 130501 (2011).
[90]
Two-dimensional color-code quantum computation,
A.G. Fowler,
Physical Review A 83, 042310 (2011).
[91]
Quantum measurement and orientation tracking of fluorescent nanodiamonds inside living cells,
L.P. McGuinness, Y. Yan, A. Stacey, D.A. Simpson, L.T. Hall, D. Maclaurin, S. Prawer, P. Mulvaney, J. Wrachtrup, F. Caruso, R.E. Scholten and L.C.L. Hollenberg,
Nature Nanotechnology 6, 358 (2011).
[92]
Entanglement-enhanced measurement of a completely unknown optical phase,
G.Y. Xiang, B.L. Higgins, D.W. Berry, H.M. Wiseman and G.J. Pryde,
Nature Photonics 5, 43 (2011).
[93]
Tunable coupling between three qubits as a building block for a superconducting quantum computer,
P. Groszkowski, A.G. Fowler, F. Motzoi and F.K. Wilhelm,
Physical Review B 84, 144516 (2011).