Professor Pieter Kok
School of Mathematical and Physical Sciences
Professor of Theoretical Physics
+44 114 222 3538
Full contact details
School of Mathematical and Physical Sciences
E12a
Hicks Building
Hounsfield Road
91̽»¨
S3 7RH
- Profile
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My research is in theoretical optical quantum information processing. I am interested in physical architectures and applications for optical quantum devices: How can we use quantum light for practical quantum communication, metrology, imaging, and computing.
Departmental administration
- Programme Lead for Physics and Astronomy (2024-present)
- Qualifications
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- Physics degree, University of Utrecht, the Netherlands (1991-1997)
- Physics PhD, University of Wales, Bangor (1998-2001)
Academic career
- NRC Research Fellow, NASA Jet Propulsion Laboratory, Pasadena CA (2001-2003)
- Research Fellow, Hewlett-Packard Labs, Bristol (2003-2005)
- Research Fellow, University of Oxford (2005-2007)
- Lecturer, University of 91̽»¨ (2007-present)
- Research interests
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Any practical distributed, long-distance quantum technology—such as the quantum Internet—will most likely involve light as a quantum information carrier. It is therefore important to understand the capabilities and limitations of photons as quantum bits.
Broadly speaking, my research falls into three categories:
- linear optical quantum computing
- hybrid quantum computing with light and matter qubits
- quantum metrology
- Publications
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Show: Featured publications All publications
Featured publications
Journal articles
All publications
Books
- . Springer International Publishing.
- . Springer International Publishing.
- Introduction to Optical Quantum Information Processing.. Cambridge University Press.
Journal articles
- . AVS Quantum Science, 5(2).
- . Physical Review Letters, 130(16).
- . Physical Review A, 106(4).
- . Nature Communications, 13(1).
- . New Journal of Physics, 24(4).
- . PRX Quantum, 2(3).
- . Physical Review A, 103(5).
- . Quantum, 5.
- . Quantum, 5.
- . Physical Review X, 11(1).
- . Physical Review Letters, 124(8).
- . AVS Quantum Science, 2(1).
- . Physical Review A, 101(1), 012124-1-012124-10.
- . Physical Review Letters, 123(14).
- . Physical Review Letters, 123(2).
- . Nano Letters, 18(9), 5475-5481.
- . Physical Review A, 97(6).
- . Optica, 5(5), 644-650.
- . Quantum, 1, 21-21.
- . Physical Review A, 95(6).
- . Physical Review A - Atomic, Molecular, and Optical Physics, 95.
- . Physical Review A, 95(1).
- . Physical Review A, 94.
- . Physical Review A, 94.
- . Physical Review A, 94(2).
- . Contemporary Physics, 57(4), 526-544.
- . Nature Communications, 7(1), 11183-11183.
- . Scientific Reports, 6.
- . Physical Review A, 92.
- . European Journal of Physics, 35(1).
- . Physical Review A - Atomic, Molecular, and Optical Physics, 88(5).
- . Physical Review A - Atomic, Molecular, and Optical Physics, 88(1).
- Quantum optical information networks. Optics InfoBase Conference Papers.
- . Pacific Rim Conference on Lasers and Electro-Optics, CLEO - Technical Digest.
- . Physical Review Letters, 109(23).
- . Phys Rev Lett, 109(12), 123601.
- Beating the classical resolution limit via multi-photon interferences of independent light sources. Optics InfoBase Conference Papers.
- . Physical Review A - Atomic, Molecular, and Optical Physics, 85(4).
- . Physical Review A - Atomic, Molecular, and Optical Physics, 85(4).
- . OPT SPECTROSC+, 111(4), 520-522.
- . Physical Review A - Atomic, Molecular, and Optical Physics, 83(1).
- . PHYS REV LETT, 105(18).
- . PHYS REV A, 82(4).
- . PHYS REV A, 82(2).
- . NAT PHOTONICS, 4(8), 504-505.
- . INT J QUANTUM INF, 8(1-2), 181-218.
- , 187-219.
- . PHYS REV A, 79(2).
- . The European Physical Journal Special Topics, 159(1), 85-91.
- . PHYS REV A, 77(1).
- . Journal of Physics A: Mathematical and Theoretical, 40(40), 12256-12258.
- . Nature, 444(7115), 49-49.
- Quantum lithography: A non-computing application of quantum information. Atmospheric Chemistry and Physics, 6(12), 73-82.
- . International Journal of Quantum Information, 04(01), 119-130.
- Quantum lithography: A non-computing application of quantum information.. Inform., Forsch. Entwickl., 21, 73-82.
- . Contemporary Physics, 46(6), 407-436.
- . Journal of Optics B: Quantum and Semiclassical Optics, 7(7), S166-S170.
- . Journal of Optics B: Quantum and Semiclassical Optics, 7(7), S135-S140.
- Communicating continuous quantum variables between different lorentz frames.. Quantum Information & Computation, 5, 239-246.
- Quantum information and computation web-corner.. Quantum Information & Computation, 5, 272-272.
- Quantum information and computation web-corner.. Quantum Information & Computation, 4, 161-163.
- . IEEE Journal of Selected Topics in Quantum Electronics, 9(6), 1498-1501.
- . IEEE Journal of Selected Topics in Quantum Electronics, 9(6), 1478-1482.
- Gravitational decoherence. Physical Review D - Particles, Fields, Gravitation and Cosmology, 68(8), 850061-8500613.
- Conditional linear-optical measurement schemes generate effective photon nonlinearities. Physical Review A - Atomic, Molecular, and Optical Physics, 68(4 A).
- Construction of a quantum repeater with linear optics. Physical Review A - Atomic, Molecular, and Optical Physics, 68(2), 223011-223015.
- Suitability versus fidelity for rating single-photon guns. Physical Review A - Atomic, Molecular, and Optical Physics, 67(3).
- Quantum information and computation web-corner.. Quantum Information & Computation, 3, 280-280.
- Single-photon quantum-nondemolition detectors constructed with linear optics and projective measurements. Physical Review A - Atomic, Molecular, and Optical Physics, 66(6), 638141-638149.
- Creation of large-photon-number path entanglement conditioned on photodetection. Physical Review A - Atomic, Molecular, and Optical Physics, 65(5 A), 521041-521045.
- Linear optics and projective measurements along suffice to create large-photon-number path entanglement. Physical Review A - Atomic, Molecular, and Optical Physics, 65(3 A).
- . Optics and Photonics News, 13(9), 24-24.
- Quantum information and computation web-corner.. Quantum Information & Computation, 2, 255-256.
- Quantum information and computation web-corner.. Quantum Information & Computation, 2, 179-180.
- Quantum information and computation web-corner.. Quantum Information & Computation, 2, 596-598.
- . Journal of Physics A: Mathematical and General, 34(31), 6185-6195.
- Quantum-interferometric optical lithography: Towards arbitrary two-dimensional patterns. Physical Review A. Atomic, Molecular, and Optical Physics, 63(6).
- Webcorner.. Quantum Information & Computation, 1, 94-96.
- Quantum information and computation web-corner.. Quantum Information & Computation, 1, 91-92.
- Long-distance quantum communication just around the corner?. Quantum Information & Computation, 1, 87-88.
- Entanglement swapping as event-ready entanglement preparation. Fortschritte der Physik, 48(5-7), 553-557.
- Postselected versus nonpostselected quantum teleportation using parametric down-conversion. Physical Review A - Atomic, Molecular, and Optical Physics, 61(4), 423041-4230410.
- . Physical Review A, 110(4).
- . Physical Review A, 108(4).
- . Physical Review Research, 5(3).
- . Physical Review Letters, 123(2).
- . Physical Review A, 97(4).
- . Physical Review A, 97(4).
- . Physical Review A, 90(6).
- . Physical Review Letters, 107(5).
- . Physical Review A, 83(2).
- . New Journal of Physics, 9(6), 196-196.
- . Reviews of Modern Physics, 79(2), 797-797.
- . Physical Review A, 75(4).
- . Reviews of Modern Physics, 79(1), 135-174.
- . Physical Review A, 73(3).
- . Physical Review A, 73(1).
- . Physical Review Letters, 95(4).
- . Physical Review A, 71(6).
- . Physical Review A, 71(6).
- . Physical Review Letters, 91(21).
- . Physical Review A, 68(2).
- . Physical Review A, 67(3).
- . Physical Review A, 68(4).
- . Physical Review A, 66(6).
- . Physical Review A, 65(3).
- . Physical Review A, 65(5).
- . Physical Review A, 63(6).
- . Physical Review A, 63(3).
- . Physical Review A, 62(6).
- . Physical Review Letters, 85(13), 2733-2736.
- . Physical Review A, 61(4).
- . Physical Review A, 99(4).
- Maximal entanglement generation in spectrally distinct solid state qubits.
Conference proceedings papers
- . Photonics for Quantum 2023, 5 June 2023 - 9 June 2023.
- (pp 73)
- . Optics InfoBase Conference Papers
- The quantum limit to incoherent imaging is achieved by linear interferometry. 24th IMEKO TC4 International Symposium and 22nd International Workshop on ADC and DAC Modelling and Testing (pp 239-243)
- . 2019 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC), 23 June 2019 - 27 June 2019.
- . Proceedings of SPIE, Vol. 10118
- . Optics InfoBase Conference Papers
- . Noise and Fluctuations in Photonics, Quantum Optics, and Communications
- . Quantum Communications and Quantum Imaging III
- . Advanced Optical and Quantum Memories and Computing II
- . Quantum Sensing and Nanophotonic Devices
- . Journal of Optics B: Quantum and Semiclassical Optics, Vol. 6(8) (pp S796-S800)
- . Journal of Optics B: Quantum and Semiclassical Optics, Vol. 6(8) (pp S811-S815)
- . Journal of Modern Optics, Vol. 51(9-10) (pp 1517-1528)
- . Fluctuations and Noise in Photonics and Quantum Optics
- . Noise and Information in Nanoelectronics, Sensors, and Standards
- Suitability vs. Fidelity: toward better measures of goodness for single-photon guns. Optics InfoBase Conference Papers
- Limitations on Building Single-photon-resolution Detection Devices. Optics InfoBase Conference Papers
- Number-Resolving Photon and Non-Photon Detectors. Optics InfoBase Conference Papers
- Linear Optical Quantum Memory. Optics InfoBase Conference Papers
- . Journal of Modern Optics, Vol. 49(14-15) (pp 2325-2338)
Preprints
- Efficient, High-Fidelity Single-Photon Switch Based on Waveguide-Coupled Cavities.
- , arXiv.
- Cumulative generation of maximal entanglement between spectrally distinct qubits using squeezed light, arXiv.
- , arXiv.
- Non-Reciprocal Transmission and Reflection of a Chirally-Coupled Quantum Dot, arXiv.
- Electrical control of nonlinear quantum optics in a nano-photonic waveguide, arXiv.
- Modal decomposition of a propagating matter wave via electron ptychography, arXiv.
- Chirality of nanophotonic waveguide with embedded quantum emitter for unidirectional spin transfer, arXiv.
- Fundamental Limits of Classical and Quantum Imaging.
- Ultimate limits to quantum metrology and the meaning of the Heisenberg limit.
- Information gap for classical and quantum communication in a Schwarzschild spacetime, arXiv.
- Unifying parameter estimation and the Deutsch-Jozsa algorithm for continuous variables.
- General optimality of the Heisenberg limit for quantum metrology.
- Optimality of the Heisenberg limit for continuous-variable quantum metrology.
- What is a quantum computer, and how do we build one?.
- Grants
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- Large Baseline Quantum-Enhanced Imaging Networks, EPSRC £441k (2021-2024, PI)
- Quantum and Many Body Physics Enabled by Advanced Semiconductor Nanotechnology, EPSRC £7.7M (2021-2026, Co-I)
- Quantum communications Hub, EPSRC £400k (2019-2024, PI)
- Semiconductor Quantum Photonics, EPSRC £5.6M (2016-2021, CoI)
- Quantum Communication, EPSRC QT Hub, £500K (2015-2019, PI)
- Semiconductor Integrated Quantum Optical Circuits , EPSRC £5M (20012-2017, Co-I)
- Teaching activities
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Undergraduate taught modules (current)
- PHY11006 Mechanics
- PHY128 Classical and Quantum Optics
- PHY21004 Subatomic Physics & Relativity
- Professional activities and memberships
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- Deputy Head of Department (Sep 2022-present)
- Associate Editor for the AIP journal AVS Quantum Science, (2019–present)
- Chair EPSRC Prioritisation Panel for Quantum Technologies (January 2022)
- Member of the Editorial Board of Physical Review A
- External examiner for Physics at Loughborough University (2014-present)
Public engagement
Links