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My Research

Publications

Teaching Experience


 
 
Publications  


    My publications grouped by subject area can be found here

    For the bean counters: 11 of the papers below are preprints which have not been (and never will be) submitted to a journal. (Some of them have still had some impact however...)

  1. Multimode quantum interference of photons in multiport integrated devices
    Alberto Peruzzo, Anthony Laing, Alberto Politi, Terry Rudolph, and Jeremy L. O'Brien
    arxiv.org/1007.1372

  2. Qubit-Initialisation and Readout with Finite Coherent Amplitudes in Cavity QED
    Ricardo Kennedy, Leonhard Horstmeyer, Andrzej Dragan, and Terry Rudolph
    arxiv.org/1006.0947

  3. A Photonic Implementation for the Topological Cluster State Quantum Computer
    David A. Herrera-Martí, Austin G. Fowler, David Jennings and Terry Rudolph
    arxiv.org/1005.2915

  4. Dynamics of a quantum reference frame undergoing selective measurements and coherent interactions
    Mehdi Ahmadi, David Jennings and Terry Rudolph
    arxiv.org/1005.0798

  5. Optically generated 2-dimensional photonic cluster state from coupled quantum dots
    Sophia E. Economou, Netanel H. Lindner and Terry Rudolph
    arxiv.org/1003.2410
    (Awaiting Publication in Physical Review Letters)

  6. Entanglement and the Thermodynamic Arrow of Time
    David Jennings and Terry Rudolph
    arxiv.org/0909.1726
    Phys. Rev. E., 81, 061130 (2010).

  7. A simple encoding of a quantum circuit amplitude as a matrix permanent
    Terry Rudolph
    arxiv.org/0909.3005
    Phys. Rev. A., 80, 054302 (2009).

  8. Cluster-state quantum computing enhanced by high-fidelity generalized measurements
    Devon N. Biggerstaff, Terry Rudolph, Rainer Kaltenbaek, Deny Hamel, Gregor Weihs and Kevin J. Resch
    arxiv.org/0909.2843
    Phys. Rev. Lett., 103, 240504 (2010).

  9. Comment on `Quantum resolution to the arrow of time dilemma'
    David Jennings and Terry Rudolph
    arxiv.org/0909.1726
    Phys. Rev. Lett., 104, 148901 (2009).

  10. Nonclassical correlations from randomly chosen local measurements
    Yeong-Cherng Liang, Nicholas Harrigan, Stephen D. Bartlett and Terry Rudolph
    arxiv.org/0909.0990
    Phys. Rev. Lett., 104, 050401 (2010).

  11. Quantum computation via measurements on the low-temperature state of a many-body system
    David Jennings, Andrzej Dragan, Sean D. Barrett, Stephen D. Bartlett and Terry Rudolph
    arxiv.org/0906.3553
    Phys. Rev. A., 80, 032328 (2009).

  12. A heralded two-qutrit entangled state
    Jaewoo Joo, Terry Rudolph and Barry C. Sanders
    arxiv.org/0902.4262
    J. Phys. B: At. Mol. Opt. Phys. 42, 114007 (2009)

    li> Entanglement detection with bounded reference frames
    Fabio Costa, Nicholas Harrigan, Terry Rudolph and Caslav Brukner
    arxiv.org/0902.0935
    New J. Phys. 11, 123007 (2009)

  13. Quantum communication using a bounded-size quantum reference frame
    Stephen D. Bartlett, Terry Rudolph, Robert W. Spekkens and Peter S. Turner
    arxiv.org/0812.5040
    New J. Phys. 11, 063013 (2009)

  14. A photonic cluster state machine gun
    Netanel H. Lindner and Terry Rudolph
    arxiv.org/0810.2587
    Phys. Rev. Lett., 103, 113602 (2009).

  15. Transitions in the computational power of thermal states for measurement-based quantum computation
    Sean D. Barrett, Stephen D. Bartlett, Andrew C. Doherty, David Jennings and Terry Rudolph
    arxiv.org/0807.4797
    Phys. Rev. A., 80, 062328 (2009).

  16. Experimental Quantum Process Discrimination
    Anthony Laing, Terry Rudolph and Jeremy L. O'Brien
    arxiv.org/0801.3831
    Phys. Rev. Lett., 102, 160502 (2009).

  17. Ontological models and the interpretation of contextuality
    Nicholas Harrigan and Terry Rudolph
    arxiv.org/0709.4266

  18. Representing probabilistic data via ontological models
    Nicholas Harrigan and Terry Rudolph
    arxiv.org/0709.1149

  19. Optical Quadbit One-Way Quantum Computation
    Jaewoo Joo, Peter L. Knight, Jeremy L. O'Brien and Terry Rudolph
    arxiv.org/0707.4664
    Phys. Rev. A., 76, 052326 (2007).

  20. Loss Tolerant Linear Optical Quantum Memory By Measurement Based Quantum Computing
    Michael Varnava, Daniel Browne and Terry Rudolph
    arxiv.org/0705.1904
    New. J. Phys. 9, 203 (2007).

  21. Gaussian quantum marginal problem
    J. Eisert, T. Tyc, T. Rudolph, and B.C. Sanders
    quant-ph/0703225
    Comm. Math. Phys. 280, 263 (2008).

  22. How good must single photon sources and detectors be for efficient linear optical quantum computation?
    M. Varnava, D.E. Browne and T. Rudolph
    quant-ph/0702044
    Phys. Rev. Lett., 100, 060502 (2008).

  23. Percolation, renormalization, and quantum computing with non-deterministic gates
    K. Kieling, T. Rudolph, J. Eisert
    quant-ph/0611140
    Phys. Rev. Lett., 99, 130501 (2007).

  24. Demonstration of efficient scheme for generation of "Event Ready" entangled photon pairs from single photon source
    Qiang Zhang, Xiao-Hui Bao, Chao-Yang Lu, Xiao-Qi Zhou, Tao Yang, Terry Rudolph, Jian-Wei Pan
    quant-ph/0610145
    Phys. Rev. A. 77, 062316 (2008).

  25. Reference Frames, Superselection Rules and Quantum Information
    Stephen D. Bartlett, Terry Rudolph and Robert W. Spekkens
    quant-ph/0610030
    Rev. Mod. Phys. 79, 555 (2007).

  26. A simple nearest neighbor 2-body Hamiltonian system for which the ground state is a universal resource for quantum computation
    Stephen D. Bartlett and Terry Rudolph
    quant-ph/0609002
    Phys. Rev. A. 74, 040302 (2006).

  27. Ontological Models for Quantum Mechanics and the Kochen-Specker theorem
    Terry Rudolph
    quant-ph/0608120

  28. Degradation of a quantum directional reference frame as a random walk
    Stephen D. Bartlett, Terry Rudolph, Barry C. Sanders, Peter S. Turner
    quant-ph/0607107
    J. Mod. Opt., 54, 367 (2007) (special issue on the occasion of Peter Knights 60th birthday)

  29. How to observe a coherent superposition of an atom and a molecule
    Mark R. Dowling, Stephen D. Bartlett, Terry Rudolph, Robert W. Spekkens
    quant-ph/0606128
    Phys. Rev. A. 74, e052113 (2006).

  30. Degradation of a quantum reference frame
    Stephen D. Bartlett, Terry Rudolph, Robert W. Spekkens and Peter S. Turner
    quant-ph/0602069
    New J. Phys. 8, 58 (2006).

  31. Entanglement-assisted Orientation in Space
    Caslav Brukner, Nikola Paunkovic, Terry Rudolph, and Vlatko Vedral
    quant-ph/0509123
    Int. J. Quantum Inform. 4, No.2, 365 (2006).

  32. Symmetric Squares of Graphs
    Koenraad Audenaert, Chris Godsil, Gordon Royle and Terry Rudolph
    math.CO/0507251
    Journal of Combinatorial Theory B 97, No.2, 74-90 (2006).

  33. Dialogue Concerning Two Views on Quantum Coherence: Factist and Fictionist
    Stephen D. Bartlett, Terry Rudolph and Robert W. Spekkens
    quant-ph/0507214
    International Journal of Quantum Information, Vol. 4, No. 1 (2006) 17-43 (Peres memorial issue of IJQI)

  34. Loss tolerant one-way computation - a horticultural approach
    Mike Varnava, Dan Browne and Terry Rudolph
    quant-ph/0507036
    Phys. Rev. Lett. 97, 120501 (2006).

  35. A relational quantum computer using only two-qubit total spin measurement and an initial supply of highly mixed single qubit states
    Terry Rudolph and Shashank Soyuz Virmani
    quant-ph/0503151
    New J. Phys. 7, 228 (2005).

  36. Experimental one-way quantum computing
    P. Walther, K. J. Resch, T. Rudolph, E. Schenck, H. Weinfurter, V. Vedral, M. Aspelmeyer and A. Zeilinger
    quant-ph/0503126
    Nature 434, 169-176 (2005).

  37. Measurement Induced Localization of Relative Degrees of Freedom
    Hugo Cable, Peter L. Knight and Terry Rudolph
    quant-ph/0411167
    Phys. Rev. A. 71, 042107 (2005).

  38. Efficient linear optical quantum computation
    Dan Browne and Terry Rudolph
    quant-ph/0405157 ,
    Phys. Rev. Lett. 95, 010501 (2005).

  39. Realization of a photonic CNOT gate sufficient for quantum computation
    Sara Gasparoni, Jian-Wei Pan, Philip Walther, Terry Rudolph, Anton Zeilinger
    quant-ph/0404107
    Phys. Rev. Lett. 93, 020504(2004).

  40. Decoherence-full subsystems and the cryptographic power of a private shared reference frame
    Stephen D. Bartlett, Terry Rudolph and Robert W. Spekkens
    quant-ph/0403161
    Phys. Rev. A. 70, 032307 (2004).

  41. Quantum State Targeting
    Terry Rudolph and Rob Spekkens.
    quant-ph/0310060
    Phys. Rev. A. 70, 052306 (2004).

  42. Optimal measurements for relative quantum information
    Stephen D. Bartlett, Terry Rudolph and Robert W. Spekkens
    quant-ph/0310009
    Phys. Rev. A. 70, 032321 (2004).

  43. How significant are the known collision and element distinctness quantum algorithms?
    Lov Grover and Terry Rudolph
    quant-ph/0309123
    Journal Quantum Information & Computation ,4, 201 (2004).

  44. Photon number superselection and the entangled coherent state representation
    Barry C. Sanders, Stephen D. Bartlett, Terry Rudolph, Peter L. Knight
    quant-ph/0306076
    Phys. Rev. A. 68, 042329 (2003).

  45. On the communication complexity of establishing a shared reference frame
    Terry Rudolph and Lov Grover
    quant-ph/0306017
    Phys. Rev. Lett. 91, 217905 (2003).

  46. On continuous-variable entanglement with and without phase references,
    S.J. van Enk, Terry Rudolph
    quant-ph/0303096

  47. Unambiguous discrimination of mixed states,
    Terry Rudolph, Robert W. Spekkens and Peter Shipley Turner
    quant-ph/0303071
    Phys. Rev. A. 68, R010301 (2003).

  48. Classical and quantum communication without a shared reference frame,
    Stephen D. Bartlett, Terry Rudolph, R. W. Spekkens,
    quant-ph/0302111
    Phys. Rev. Lett. 89, 227901 (2001).

  49. Quantum communication protocols using the vacuum,
    Xiatra Anderson, S.J. van Enk, Terry Rudolph,
    quant-ph/0302091
    Journal Quantum Information & Computation, 3, 423 (2003).

  50. A 2 rebit gate universal for quantum computing
    Terry Rudolph and Lov Grover
    quant-ph/0210187

  51. Creating superpositions that correspond to efficiently integrable probability distributions
    Lov Grover and Terry Rudolph,
    quant-ph/0208112

  52. Constructing physically intuitive graph invariants
    Terry Rudolph,
    quant-ph/0206068

  53. Evolution in time of an N-atom system. II. Calculation of the eigenstates
    Terry Rudolph, Itay Yavin and Helen Freedhoff,
    quant-ph/0206067
    Phys. Rev. A. 69, 013815 (2004).

  54. Quantum searching a classical database (or how we learned to stop worrying and love the bomb)
    Terry Rudolph and Dr.(Strange)Lov Grover,
    quant-ph/0206066

  55. The laws of physics and cryptographic security
    Terry Rudolph,
    quant-ph/0202143

  56. A quantum protocol for cheat-sensitive weak coin flipping
    Rob Spekkens and Terry Rudolph,
    quant-ph/0202118
    Phys. Rev. Lett. 89, 227901 (2001).

  57. Comment on "The Quantum State of a Propagating Laser Field
    Terry Rudolph and Barry C. Sanders
    quant-ph/0112020

  58. A simple gate for linear optics quantum computing,
    T. Rudolph and J.-W. Pan,
    quant-ph/0108056

  59. Optimization of coherent attacks in generalizations of the BB84 quantum bit commitment protocol,
    Rob Spekkens and Terry Rudolph,
    quant-ph/0107042
    Journal Quantum Information & Computation, 2, 66 (2002).

  60. Degrees of Concealment and Bindingness in Quantum Bit Commitment Protocols,
    Rob Spekkens and Terry Rudolph,
    quant-ph/0106019
    Phys. Rev. A. 65, 012310 (2002).

  61. Requirement of Coherence for Continuous Variable Teleportation,
    Terry Rudolph and Barry Sanders,
    quant-ph/0103147
    Phys. Rev. Lett. 87, 077903 (2001).

  62. Quantum information processing in localized modes of light within a photonic band-gap material,
    Nipun Vats and Terry Rudolph,
    quant-ph/9910046
    J. Mod. Opt. 48 1495-1502 (2001).

  63. Better schemes for Quantum Interrogation in lossy experiments,
    T. Rudolph,
    Phys. Rev. Lett. 85, 2925-2928 (2000).

  64. Dressing Dressed States,
    Z. Ficek, H.S. Freedhoff and T.G. Rudolph,
    Opt. Spectrosc. 87, 670-675 (1999).

  65. Quantum Information is physical too.
    T. Rudolph,
    quant-ph/9904037

  66. Quantum interference in a driven two-level atom,
    Z. Ficek and T. Rudolph,
    Phys. Rev. A. 60 R4245-R4248 (1999).

  67. Photon correlations in a bichromatically driven two-level atom,
    Y. Ben-Aryeh, H. Freedhoff and T. Rudolph,
    J. Opt. B: Quantum Semiclass. Opt. 1, 624-630 (1999).

  68. Quantum Triangulation and Violation of Conservation of Trouble,
    T. Rudolph,
    quant-ph/9902010

  69. Shift of the Subharmonic Resonances and Suppression of Fluorescence in a Two-Level Atom Driven by a Bichromatic Field,
    T. Rudolph, H.S. Freedhoff and Z. Ficek,
    J. Opt. Soc. Am. B, 15, 2325-2330 (1998).

  70. The Multiphoton AC Stark Effect in a Bichromatically Driven Two-Level Atom,
    T. Rudolph, Z. Ficek and H.S. Freedhoff,
    Phys. Rev. A. 58, 1296-1309, (1998).

  71. Interference Pattern with a Dark Center from Two Atoms driven by a Coherent Laser Field,
    T. Rudolph and Z. Ficek,
    Phys. Rev. A. 58, 748-751 (1998).

  72. The Multiphoton AC Stark effect,
    T. Rudolph, Z. Ficek and H.S.Freedhoff,
    Opt. Comm. 147, 78-82 (1998).

  73. Two-Atom Resonance Fluorescence in Standing- and Running- Wave Laser Fields,
    T.G. Rudolph, Z. Ficek and B.J. Dalton,
    Phys. Rev. A. 52, 636-656 (1995).

    Refereed conference proceedings/presentations
    I have finally given up keeping track of refereed conference proceedings. If someone really thinks its important to see these as well, I can probably compile a list. But I won't be happy about it.