Publications

Books

  1. Introductory Quantum Physics and Relativity Jacob Dunningham and Vlatko Vedral (Imperial College Press, 2010) Link

  2. Introductory Quantum Physics and Relativity (2nd edition) Jacob Dunningham and Vlatko Vedral (World Scientific, 2018) Link

  3. Quantum Theory (Bullet Guides) Jacob Dunningham (Hodder Education, 2011). Link

  4. Dunningham Dunningham Dunningham

    Journal articles

  5. Proposal for an experiment to verify Wigner's rotation at non-relativistic speeds with massive spin-1/2 particles Veiko Palge, Jacob Dunningham, Yuji Hasegawa and Christian Pfeifer, arXiv:1604.03389 Link

  6. Terrestrial Very-Long-Baseline Atom Interferometry: Workshop Summary Sven Abend et al., arXiv:2302.03617 (accepted AVS Quantum Science, 2024) Link

  7. Secure quantum remote sensing without entanglement Sean W. Moore and Jacob A. Dunningham, AVS Quantum Sci. 5, 014406 (2023); arXiv:2302.03617 Link

  8. Cold Atoms in Space: Community Workshop Summary and Proposed Road-Map Ivan Alonso et al., EPJ Quantum Technology 9, 30 (2022); arXiv:2201.07789 Link

  9. SEPnet: A Sustainable Model for a Collaborative Physics Network Jacob Dunningham, Olivia Keenan, Cristobel Soares, Veronica Benson, Michelle Limbert and Claire Hepwood, The Physics Educator 4, 2230001 (2022); arXiv:2206.06198 Link

  10. Measuring the stability of fundamental constants with a network of clocks G. Barontini et al., EPJ Quantum Technology 9, 12 (2022); arXiv:2112.10618 Link

  11. Quantum-enhanced atomic gyroscope with tunable precision J.P. Cooling and Jacob Dunningham, Journal of Physics B 54, 195502 (2021); arXiv:2110.10574 Link

  12. From Rényi Entropy Power to Information Scan of Quantum States Petr Jizba, Jacob Dunningham and Martin Prokš, Entropy 23, 334 (2021); arXiv:2102.09415 Link

  13. Spin squeezing of a Bose-Einstein condensate via quantum non-demolition measurement for quantum-enhanced atom interferometry Michail Kritsotakis, Jacob A. Dunningham and Simon A. Haine, Physical Review A 103, 023318 (2021); arXiv:2005.00299 Link

  14. Quantum sensing networks for the estimation of linear functions Jesús Rubio, Paul A Knott, Timothy J Proctor and Jacob A Dunningham, J. Phys A: Math. Theor. 53, 344001 (2020); arXiv:2003.04867 Link

  15. AEDGE: Atomic Experiment for Dark Matter and Gravity Exploration in Space Yousef Abou El-Neaj et al., EPJ Quantum Technology 7, 6 (2020); arXiv:1908.00802 Link

  16. Bayesian multi-parameter quantum metrology with limited data Jesús Rubio and Jacob Dunningham, Physical Review A 101, 032114 (2020); arXiv:1906.04123 Link

  17. Information scan of quantum states based on entropy-power uncertainty relations P. Jizba, A. Hayes and J. A. Dunningham, Journal of Physics: Conf. Series 1275, 012005 (2019). Link

  18. Maps generated by entangled momenta: exploring spin entanglement in relativity Veiko Palge, Jacob Dunningham, Stefan Groote and Hannes Liivat, Open Systems & Information Dynamics 26, 01950001 (2019). Link

  19. Quantum metrology in the presence of limited data Jesús Rubio and Jacob Dunningham, New Journal of Physics 21, 043037 (2019); arXiv:1810.12857 Link

  20. Relativistic entanglement of two particles driven by continuous product momenta Veiko Palge, Jacob Dunningham, Stefan Groote, Hannes Liivat, Hardi Veermäe, Physical Review A 98, 052322 (2018); arXiv:1409.1316 Link

  21. Optimal matterwave gravimetry Michail Kritsotakis, Stuart S. Szigeti, Jacob A. Dunningham and Simon A. Haine, Physical Review A 98, 023629 (2018); arXiv:1710.06340 Link

  22. Making the most of time in quantum metrology: concurrent state preparation and sensing Anthony J. Hayes, Shane Dooley, William J. Munro, Kae Nemoto and Jacob Dunningham, Quantum Sci. Technol. 3 035007 (2018). Link

  23. Heisenberg scaling with classical long-range correlations Samuel Fernández-Lorenzo, Jacob A. Dunningham and Diego Porras, Physical Review A 97, 023843 (2018); arXiv:1708.09361 Link

  24. Multi-parameter estimation in networked quantum sensors Timothy J. Proctor, Paul A. Knott and Jacob A. Dunningham, Physical Review Letters 120, 080501 (2018); arXiv:1707.06252 Link

  25. Non-asymptotic analysis of quantum metrology protocols beyond the Cramér-Rao bound Jesús Rubio, Paul Knott and Jacob Dunningham, Journal of Physics Communications 2 015027 (2018) Link

  26. Strong legacy Jacob Dunningham, Physics World 31, 23 (2018) Link

  27. New class of entropy-power-based uncertainty relations P. Jizba, A. Hayes and J. A. Dunningham, Journal of Physics: Conf. Series 880, 012054 (2017) Link

  28. Networked quantum sensing T. J. Proctor, P. A. Knott and J. A. Dunningham, arXiv:1702.04271 (2017) Link

  29. Transformation properties and entanglement of relativistic qubits under space-time and gauge transformations Xavier Calmet and Jacob Dunningham, Physical Review A 95, 042309 (2017); arXiv:1703.07998 Link

  30. Role of entanglement in calibrating optical quantum gyroscopes Pieter Kok, Jacob Dunningham and Jason F. Ralph, Physical Review A 95, 012326 (2017); arXiv:1505.06321 Link

  31. Local versus Global Strategies in Multi-parameter Estimation P. A. Knott,  T. J. Proctor,  A. J. Hayes, J. F. Ralph, P. Kok and J. A. Dunningham, Physical Review A 94 062312 (2016); arXiv:1601.05912 Link

  32. One-parameter class of uncertainty relations based on entropy power Petr Jizba, Yue Ma, Anthony Hayes and Jacob A. Dunningham, Physical Review E (Rapid Communications) 93, 060104(R) (2016). Link

  33. Correspondence: Enhancing a phase measurement by sequentially probing a solid-state system (vol 7, 11520, 2016) P.A. Knott, W.J. Munro and J.A. Dunningham, Nature Communications 7, 11864 doi:10.1038/ncomms11864 (2016).

  34. Correspondence: Enhancing a phase measurement by sequentially probing a solid state system P.A. Knott, W.J. Munro and J.A. Dunningham, Nature Communications 7, 11520 doi:10.1038/ncomms11520 (2016). Link

  35. Practical quantum metrology with large precision gains in the low photon number regime P.A. Knott, J.P. Cooling, A. Hayes, T.J. Proctor and J.A. Dunningham, Physical Review A 93, 033859 (2016). Link

  36. Behavior of Werner states under relativistic boosts Veiko Palge and Jacob Dunningham, Annals of Physics 363, 275 (2015). Link

  37. Quantum-enhanced gyroscopy with rotating anisotropic Bose-Einstein condensates L.M. Rico Gutiérrez, T.P. Spiller and J.A. Dunningham, New Journal of Physics 17, 043022 (2015). Link

  38. On the Role of Information Theoretic Uncertainty Relations in Quantum Theory P. Jizba, J.A. Dunningham and J. Joo, Annals of Physics 355, 87 (2015). Link

  39. Effect of multimode entanglement on lossy optical quantum metrology P.A. Knott, T.J. Proctor, Kae Nemoto, J.A. Dunningham and W.J. Munro, Physical Review A 90, 033846 (2014). Link

  40. Attaining sub-classical metrology in lossy systems with entangled coherent states P.A. Knott, W.J. Munro and J.A. Dunningham, Physical Review A 89 , 053812 (2014). Link

  41. Precise phase measurements using an entangled coherent state P.A. Knott and J.A. Dunningham, Proceedings of 2nd International Conference on Photonics, Optics and Laser Technology, 205-211, 2014, Lisbon, Portugal, arXiv:1401.3969 Link

  42. Engineering entanglement for metrology with rotating matter waves L. M. Rico Gutiérrez, T.P. Spiller and J.A. Dunningham, New Journal of Physics 15, 063010 (2013). Link

  43. Detecting measurement-induced relative-position localisation P.A. Knott, J. Sindt and J.A. Dunningham, Journal of Physics B 46, 095501 (2013). Link

  44. Detecting the relative localisation of quantum particles P.A. Knott, J. Sindt and J.A. Dunningham, Journal of Physics Conference Series 442, 012026 (2013). Link

  45. Measuring a completely unknown phase with sub-shot-noise precision in the presence of loss N. Gkortsilas, J.J. Cooper and J.A. Dunningham, Physical Review A 85, 063827 (2012). Link

  46. Quantum metrology with rotating matter waves in different geometries J.A. Dunningham, J.J. Cooper, and D.W. Hallwood, AIP Conference Proceedings 1469, 23 (2012). Link

  47. Generation of maximally entangled states with subluminal Lorentz boosts (vol 85, 042322 2012) V. Palge and J.A. Dunningham, Physical Review A 86, 049902 (2012).

  48. Generation of maximally entangled states with sub-luminal Lorentz boosts V. Palge and J.A. Dunningham, Physical Review A 85, 042322 (2012). Link

  49. Robust quantum enhanced phase estimation in a multimode interferometer J.J. Cooper, D.W. Hallwood, J.A. Dunningham, and J. Brand, Physical Review Letters 108, 130402 (2012). Link

  50. Towards improved interferometric sensitivities in the presence of loss J.J. Cooper and J.A. Dunningham, New Journal of Physics 13, 115003 (2011). Link

  51. Behaviour of entanglement and Cooper pairs under relativistic boosts V. Palge, V. Vedral, and J.A. Dunningham, Physical Review A 84, 044303 (2011). Link

  52. Observing superpositions of different number states J.A. Dunningham, L. M. Rico Gutiérrez, and V. Palge, Optics and Spectroscopy 111, 563 (2011). Link

  53. Creating and observing N-partite entanglement with atoms M.S. Everitt, M.L. Jones, B.T.H. Varcoe, and J.A. Dunningham, Journal of Physics B 44, 035504 (2011). Link

  54. Needling the haystack Jacob Dunningham, Nature Physics 6, 718 (2010). Link

  55. Observing the superposition of a single particle with the vacuum L. M. Rico Gutiérrez, V. Palge, and J.A. Dunningham, Mathematical Structures in Computer Science 20, 1051 (2010). Link

  56. Entanglement-enhanced atomic gyroscope J.J. Cooper, D.W. Hallwood, and J.A. Dunningham, Physical Review A 81, 043624 (2010). Link

  57. Measuring atomic NOON-states and using them to make measurements D.W. Hallwood, A. Stokes, J.J. Cooper, and J.A. Dunningham, New Journal of Physics 11, 103040 (2009). Link

  58. Entanglement and nonlocality of a single relativistic particle J.A. Dunningham, V. Palge, and V. Vedral, Physical Review A 80, 044302 (2009). Link

  59. Superdense coding with single-particle entanglement J.A. Dunningham, Journal of Russian Laser Research 30, 427 (2009). Link

  60. Entanglement stirred up J.A. Dunningham, Nature Physics 5, 381 (2009). Link

  61. Simplifying mathematical modelling to test intervention strategies for chlamydia C. Heffernan and J.A. Dunningham, Journal of Public Health and Epidemiology 1, 7 (2009). Link

  62. Scheme for implementing atomic multiport devices J.J. Cooper, D.W. Hallwood, and J.A. Dunningham, Journal of Physics B 42, 105301 (2009). Link

  63. Quantum computing with Rydberg atoms in cavities M. Everitt, J.A. Dunningham and B.T.H Varcoe , Frontiers in Optics 2009/Laser Science XXV (Optical Society of America), paper FThU3 (2009). Link

  64. Single particle nonlocality with completely independent reference states J.J. Cooper and J.A. Dunningham, New Journal of Physics 10, 113024 (2008). Link

  65. Nonlocality of a single particle J.A. Dunningham and V. Vedral, Physical Review Letters 99, 180404 (2007). Link
    Also featured on PhysOrg.com. Link

  66. The barriers to producing multiparticle superposition states in rotating Bose-Einstein condensates D.W. Hallwood, K. Burnett, and J. Dunningham, Journal of Modern Optics 54, 2129 (2007). Link

  67. Entanglement in single particle systems M. O. Terra Cunha, J.A. Dunningham, and V. Vedral, Proceedings of the Royal Society A 463, 2277 (2007). Link

  68. Precision measurements with an optical Josephson junction H.T. Ng, K. Burnett, and J.A. Dunningham, Physical Review A 75, 063607 (2007). Link

  69. Using quantum theory to improve measurement precision J. A. Dunningham, Contemporary Physics 47, 257 (2006).Link

  70. Macroscopic superpositions of superfluid flows D.W. Hallwood, K. Burnett, and J. Dunningham, New Journal of Physics 8, 180 (2006). Link

  71. Creation of macroscopic superposition states from arrays of Bose-Einstein condensates J.A. Dunningham, K. Burnett, R. Roth, and W.D. Phillips, New Journal of Physics 8, 182 (2006). Link

  72. Creation of macroscopic superpositions of flow states with Bose-Einstein condensates J. Dunningham and D. Hallwood, Physical Review A 74, 023601 (2006). Link

  73. Efficient comparison of path-lengths using Fourier multiport devices J.A. Dunningham and A. Vourdas, Journal of Physics B 39, 1579 (2006). Link

  74. Applications and implementation of Fourier multiport devices S. Zhang, C. Lei, A. Vourdas, and J. Dunningham, Journal of Physics B 39, 1625 (2006). Link

  75. Using quantum interferometers to make measurements at the Heisenberg limit J. Dunningham and T. Kim Journal of Modern Optics 53, 557 (2006). Link

  76. Precision measurement scheme using a quantum interferometer T. Kim, J. Dunningham, K. Burnett, Physical Review A 72, 055801 (2005). Link

  77. Bose-Einstein condensates and precision measurements J. Dunningham, K. Burnett, and W.D. Phillips, Philosophical Transactions of the Royal Society 363, 2165 (2005). Link

  78. Fourier multiport devices A. Vourdas and J.A. Dunningham, Physical Review A 71, 013809 (2005). Link

  79. From pedigree cats to fluffy-bunnies J.A. Dunningham, A.V. Rau, and K. Burnett, Science 307, 872 (2005). Link

  80. Transitivity of the relative localization of particles J.A. Dunningham, A.V. Rau, and K. Burnett, Journal of Modern Optics 51, 2323 (2004). Link

  81. Sub-shot-noise-limited measurements with Bose-Einstein condensates J.A. Dunningham and K. Burnett, Physical Review A 70, 033601 (2004). Link

  82. Excitations of Bose-Einstein condensates in optical lattices K. Braun-Munzinger, J.A. Dunningham, and K. Burnett, Physical Review A 69, 053613 (2004). Link

  83. Measurement-induced relative-position localization through entanglement A.V. Rau, J.A. Dunningham, and K. Burnett, Science 301, 1081 (2003). Link

  84. Phase measurement of Bose-Einstein condensates in lattices J.A. Dunningham, Physical Review A (Rapid Communication) 66, 041601 (2002). Link

  85. Interferometry below the standard quantum limit with BECs J.A. Dunningham, K. Burnett, and Stephen M. Barnett, Physical Review Letters 89, 150401 (2002). Link

  86. Entanglement concentration in Bose-Einstein condensates J.A. Dunningham, S. Bose, L. Henderson, V. Vedral, and K. Burnett, Physical Review A 65, 064302 (2001). Link

  87. Relative number squeezing in Bose-Einstein condensates J.A. Dunningham, K. Burnett, and Mark Edwards, Physical Review A 64, 015601 (2001). Link

  88. Interactions and entanglements in BECs K. Burnett, S. Choi, M. Davis, J.A. Dunningham, and M. Rusch, Cr. Acad. Sci. IV Phys. 2, 399 (2001). Link

  89. Proposals for creating Schrodinger cat states in Bose-Einstein condensates J.A. Dunningham and K. Burnett, Journal of Modern Optics 48, 1837 (2001). Link

  90. Establishment of phase between coupled Bose-Einstein condensates J.A. Dunningham and K. Burnett, Journal of Physics B 33, 3807 (2000). Link

  91. Phase resolution of Bose-Einstein condensates J.A. Dunningham and K. Burnett, Physical Review A 61, 065601 (2000). Link

  92. Phase standard for Bose-Einstein condensates J.A. Dunningham and K. Burnett, Physical Review Letters 82, 3729 (1999). Link

  93. Quantum state of a trapped Bose-Einstein condensate J.A. Dunningham, M.J. Collett, and D.F. Walls, Physics Letters A 245, 49 (1998). Link

  94. Manipulating the motion of a single atom in a standing wave via feedback J.A. Dunningham, H.M. Wiseman, and D.F. Walls, Physical Review A 55, 1398 (1997). Link

PhD thesis

  • Quantum phase of Bose-Einstein condensates J.A. Dunningham, DPhil thesis, University of Oxford (2001). Link

Other

  • Quantum Exploits University of Leeds Alumni Magazine (2008). Link