Publications
You can find my papers on Google Scholar, ORCID and the arXiv.
67. S Abend et al, Terrestrial very-long-baseline atom interferometry: Workshop summary, AVS Quantum Science 6, 024701 (2024).
66. SM Graham, AJ Newman, CJ Stephen, AM Edmonds, DJ Twitchen, ML Markham, GW Morley, On the Road with a Diamond Magnetometer, arXiv:2401.16090 (2024).
65. AJ Newman, SM Graham, AM Edmonds, DJ Twitchen, ML Markham & GW Morley, Tensor gradiometry with a diamond magnetometer, Physical Review Applied 21, 014003 (2024), open access.
64. Muhammad Junaid Arshad, Christiaan Bekker, Ben Haylock, Krzysztof Skrzypczak, Daniel White, Benjamin Griffiths, Joe Gore, Gavin W Morley, Patrick Salter, Jason Smith, Inbar Zohar, Amit Finkler, Yoann Altmann, Erik M Gauger, Cristian Bonato, Real-time adaptive estimation of decoherence timescales for a single qubit, Physical Review Applied 21, 024026 (2024), open access.
63. Xingrui Cheng, Nils Kolja Wessling, Saptarsi Ghosh, Andrew R Kirkpatrick, Menno J Kappers, Yashna ND Lekhai, Gavin W Morley, Rachel A Oliver, Jason M Smith, Martin D Dawson, Patrick S Salter, Michael J Strain, Additive GaN solid immersion lenses for enhanced photon extraction efficiency from diamond color centers, ACS Photonics 10, 3374 (2023), open access.
62. James E March, Benjamin D Wood, Colin J Stephen, Soumen Mandal, Andrew M Edmonds, Daniel J Twitchen, Matthew L Markham, Oliver A Williams & Gavin W Morley, Long Spin Coherence and Relaxation Times in Nanodiamonds Milled from Polycrystalline 12C Diamond, Physical Review Applied 20, 044045 (2023), open access.
61. SM Graham, ATMA Rahman, L Munn, RL Patel, AJ Newman, CJ Stephen, G Colston, A Nikitin, AM Edmonds, DJ Twitchen, ML Markham & GW Morley, Fiber-coupled Diamond Magnetometry with an Unshielded 30 pT/√Hz Sensitivity, Physical Review Applied 19, 044042 (2023), preprint, open data.
60. Gavin Morley, Rajesh Patel & Leiqing Zhou, Sensor using a field gradient in a given volume, patent WO2022096891A1 (2022).
59. Eric Adelberger et al, Snowmass White Paper: Precision Studies of Spacetime Symmetries and Gravitational Physics, arXiv:2203.09691 (2022).
58. Daniel Carney et al, Snowmass 2021: Quantum Sensors for HEP Science -- Interferometers, Mechanics, Traps, and Clocks, arXiv:2203.07250 (2022).
57. Rainer Kaltenbaek et al, Research Campaign: Macroscopic quantum resonators (MAQRO), Quantum Science and Technology 8, 014006 (2023), open access.
56. Christopher Hardly Joseph, Georg Gramse, Emanuela Proietti, Giovanni Maria Sardi, Gavin W Morley, Ferry Kienberger, Giancarlo Bartolucci & Romolo Marcelli, Local Characterization of Ferromagnetic Resonance in Bulk and Patterned Magnetic Materials using Scanning Microwave Microscopy, IEEE Transactions on Instrumentation and Measurement 71, 1 (2022).
55. BD Wood, GA Stimpson, JE March, YND Lekhai, CJ Stephen, BL Green, AC Frangeskou, L Ginés, S Mandal, OA Williams & GW Morley, Long Spin Coherence Times of Nitrogen Vacancy Centres in Milled Nanodiamonds, Physical Review B 105, 205401 (2022), preprint.
54. BD Wood, S Bose & GW Morley, Spin dynamical decoupling for generating macroscopic superpositions of a free-falling nanodiamond, Physical Review A 105, 012824 (2022), preprint.
53. Ivan Alonso et al, Cold Atoms in Space: Community Workshop Summary and Proposed Road-Map, EPJ Quantum Technology 9, 30 (2022), arXiv:2201.07789.
52. Yue Ma, Thomas Guff, Gavin W Morley, Igor Pikovski & MS Kim, Limits on inference of gravitational entanglement, Physical Review Research 4, 013024 (2022), open access.
51. Benjamin D Wood & Gavin W Morley, Review
50. Benjamin Griffiths, Andrew Kirkpatrick, Shannon S Nicley, Rajesh L Patel, Joanna M Zajac, Gavin W Morley, Martin J Booth, Patrick S Salter & Jason M Smith, Microscopic processes during ultra-fast laser generation of Frenkel defects in diamond, Physical Review B 104, 174303 (2021), arXiv:2105.11894.
49. LQ Zhou, RL Patel, AC Frangeskou, A Nikitin, BL Green, BG Breeze, S Onoda, J Isoya & GW Morley, Imaging damage in steel using a diamond magnetometer, Physical Review Applied 15, 024015 (2021), open access, open data, related patent.
48. RL Patel, LQ Zhou, AC Frangeskou, GA Stimpson, BG Breeze, A Nikitin, MW Dale, EC Nichols, W Thornley, BL Green, ME Newton, AM Edmonds, ML Markham, DJ Twitchen & GW Morley, Sub-nanotesla magnetometry with a fibre-coupled diamond sensor, Physical Review Applied 14, 044058 (2020), open access, open data.
47. Julen S Pedernales, Gavin W Morley & Martin B Plenio, Motional Dynamical Decoupling for Interferometry with Macroscopic Particles, Physical Review Letters 125, 023602 (2020), open access. The preprint version of this has extra content.
46. Ryan J Marshman, Anupam Mazumdar, Gavin W Morley, Peter F Barker, Steven Hoekstra & Sougato Bose, Mesoscopic Interference for Metric and Curvature (MIMAC) & Gravitational Waves, New Journal of Physics 22, 083012 (2020), open access. Highlighted in popular press including Scientific American and Physics World.
45. GA Stimpson, MS Skilbeck, RL Patel, BL Green & GW Morley, An open-source high-frequency lock-in amplifier, Review of Scientific Instruments 90, 094701 (2019), open access, open source code, open data.
44. Yu-Chen Chen, Benjamin Griffiths, Laiyi Weng, Shannon Nicley, Shazeaa N Ishmael, Yashna Lekhai, Sam Johnson, Colin J Stephen, Ben L Green, Gavin W Morley, Mark E Newton, Martin J Booth, Patrick S Salter & Jason M Smith, Laser writing of individual atomic defects in a crystal with near-unity yield, Optica 6, 662 (2019), open access.
43. CJ Stephen, BL Green, YND Lekhai, L Weng, P Hill, S Johnson, AC Frangeskou, PL Diggle, MJ Strain, E Gu, ME Newton, JM Smith, PS Salter & GW Morley, Deep three-dimensional solid-state qubit arrays with long-lived spin coherence, Physical Review Applied 12, 064005 (2019), open access, open data.
42. MW Dale & GW Morley, Medical applications of diamond magnetometry: commercial viability, MagNews Issue 1, page 26 (2019), arXiv:1705.01994. See also our NQIT Impact Case Study on this.
41. AC Frangeskou, GW Morley, BL Green, BG Breeze, MW Dale & RL Patel, Defect centre-based sensor, US patent 11852701 (granted 2023).
40. Laia Ginés, Soumen Mandal, David John Morgan, Ryan Lewis, Philip R Davies, Paola Borri, Gavin W Morley & Oliver A Williams, Production of Metal-Free Diamond Nanoparticles, ACS Omega 3, 16099 (2018), open access.
39. AC Frangeskou, ATMA Rahman, L Gines, S Mandal, OA Williams, PF Barker & GW Morley, Pure nanodiamonds for levitated optomechanics in vacuum, New Journal of Physics 20, 043016 (2018), open access, open data.
38. ATMA Rahman, AC Frangeskou, PF Barker & GW Morley, An analytical model for the detection of levitated nanoparticles in optomechanics, Review of Scientific Instruments 89, 023109 (2018), open access, open data.
37. S Bose, A Mazumdar, GW Morley, H Ulbricht, M Toroš, M Paternostro, A Geraci, P Barker, MS Kim & G Milburn, A Spin Entanglement Witness for Quantum Gravity, Physical Review Letters 119, 240401 (2017), arXiv preprint. Highlighted in popular press including PRL Synopsis, Quanta, The Atlantic and New Scientist.
36. Y-C Chen, PS Salter, S Knauer, L Weng, AC Frangeskou, CJ Stephen, SN Ishmael, PR Dolan, S Johnson, BL Green, GW Morley, ME Newton, JG Rarity, MJ Booth, JM Smith, Laser writing of coherent colour centres in diamond, Nature Photonics 11, 77 (2017), arXiv preprint.
35. C Wan, M Scala, GW Morley, ATMA Rahman, H Ulbricht, J Bateman, PF Baker, S Bose, MS Kim, Free Nano-Object Ramsey Interferometry for Large Quantum Superpositions, Physical Review Letters 117, 143003 (2016), open access.
34. ATMA Rahman, AC Frangeskou, MS Kim, S Bose, GW Morley & PF Barker, Burning and graphitization of optically levitated nanodiamonds in vacuum, Scientific Reports 6, 21633 (2016). arXiv preprint
33. C Wan, M Scala, S Bose, AC Frangeskou, ATMA Rahman, GW Morley, PF Barker & MS Kim, Tolerance in the Ramsey interference of a trapped nanodiamond, Physical Review A 93, 043852 (2016). arXiv:1509.00724
32. B Antonio, J Randall, WK Hensinger, GW Morley & S Bose, Classical Computation by Quantum Bits, arXiv:1509.03420 (2015).
31. GW Morley, Review: Towards Spintronic Quantum Technologies with Dopants in Silicon, book chapter in SPR Electron Paramagnetic Resonance Volume 24 published by the RSC, arXiv1407.6250 (2014). pdf
30. M Warner, S Din, IS Tupitsyn, GW Morley, AM Stoneham, JA Gardener, Z Wu, AJ Fisher, S Heutz, CWM Kay & G Aeppli, Potential for spin-based information processing in a thin-film molecular semiconductor, Nature 503, 504 (2013).
Highlighted in popular press including New York Times
29. M Scala, MS Kim, GW Morley, PF Barker & S Bose, Matter-wave interferometry of a levitated thermal nano-oscillator induced and probed by a spin, Physical Review Letters 111, 180403 (2013). arXiv preprint
28. HR Thomas, SP Day, WE Woodruff, C Vallés, RJ Young, IA Kinloch, GW Morley, JV Hanna, NR Wilson & JP Rourke, Deoxygenation of Graphene Oxide: Reduction or Cleaning?, Chemistry of Materials 25, 3580 (2013). pdf
27. GW Morley, P Lueders, MH Mohammady, SJ Balian, G Aeppli, CWM Kay, WM Witzel, G Jeschke & TS Monteiro, Quantum control of hybrid nuclear-electronic qubits, Nature Materials 12, 103 (2013). arXiv preprint
With News & Views by N Zhao & J Wrachtrup, Nature Materials 12, 97 (2013) and News in ChemPhysChem.
26. GW Morley & ME Newton, Microwave detector, Worldwide patent: number WO2015015172A1 (2013).
25. M Warner, S Mauthoor, S Felton, W Wu, JA Gardener, S Din, D Klose, GW Morley, AM Stoneham, AJ Fisher, G Aeppli, CWM Kay & S Heutz, Spin-based diagnostic of nanostructure in copper phthalocyanine-C60 solar cell blends, ACS Nano 6, 10808 (2012). pdf
24. SJ Balian, MBA Kunze, MH Mohammady, GW Morley, WM Witzel, CWM Kay & TS Monteiro, Measuring Central-Spin Interaction with a Spin-Bath by Pulsed ENDOR: Towards Suppression of Spin Diffusion Decoherence, Physical Review B 86, 104428 (2012). pdf
23. MH Mohammady, GW Morley, A Nazir & TS Monteiro, Analysis of quantum coherence in bismuth-doped silicon: A system of strongly coupled spin qubits, Physical Review B 85, 094404 (2012). pdf
22. DR McCamey, C Boehme, GW Morley & J van Tol, Electrically detected spin echoes of donor nuclei in silicon, Physical Review B 85, 073201 (2012). pdf
21. GW Morley, DR McCamey, C Boehme & J van Tol, Electrically detected Rabi oscillations of phosphorus qubits in silicon, Physica Status Solidi B 248, 2697 (2011). pdf
20. DR McCamey, J van Tol, GW Morley & C Boehme, Electronic Spin Storage in an Electrically Readable Nuclear Spin Memory with a Lifetime >100 Seconds, Science 330, 1652 (2010). pdf
Highlighted in popular press including Scientific American
19. GW Morley, M Warner, AM Stoneham, PT Greenland, J van Tol, CWM Kay & G Aeppli, The initialization and manipulation of quantum information stored in silicon by bismuth dopants, Nature Materials 9, 725 (2010). pdf
18. MH Mohammady, GW Morley & TS Monteiro, Bismuth Qubits in Silicon: The Role of EPR Cancellation Resonances, Physical Review Letters 105, 067602 (2010). pdf
17. GW Morley, Benefits of a Roundabout, Physics 3, 6 (2010). pdf
16. DR McCamey, J van Tol, GW Morley & C Boehme, Fast Nuclear Hyperpolarization of Phosphorus in Silicon, Physical Review Letters 102, 027601 (2009). pdf
15. DR McCamey, C Boehme, J van Tol & GW Morley, Method for the generation of nuclear hyperantipolarization in solids without the use of very high magnetic fields or magnetic resonant excitation, Worldwide patent: number WO/2009/155563 (2009).
14. AM Stoneham, AH Harker & GW Morley, Could one make a diamond-based quantum computer?, Journal of Physics, Condensed Matter 21, 364222 (2009). pdf
13. J van Tol, GW Morley, S Takahashi, DR McCamey, C Boehme & ME Zvanut, High Field Phenomena of Qubits, Applied Magnetic Resonance 36, 259 (2009). pdf
12. GW Morley, DR McCamey, HA Seipel, L-C Brunel, J van Tol & C Boehme, Long-lived spin coherence in silicon with an electrical spin trap readout, Physical Review Letters 101, 207602 (2008). pdf
Highlighted in popular press including Scientific American
11. DR McCamey, GW Morley, HA Seipel, L-C Brunel, J van Tol & C Boehme, Spin-dependent processes at the crystalline Si-SiO2 interface at high magnetic fields, Physical Review B 78, 045303 (2008). pdf
10. GW Morley, L-C Brunel & J van Tol, A multifrequency high-field pulsed electron paramagnetic resonance/electron-nuclear double resonance spectrometer, Review of Scientific Instruments 79, 064703 (2008). pdf
9. S Nellutla, GW Morley, J van Tol, M Pati & N Dalal, Electron spin relaxation and 39K pulsed ENDOR studies on Cr5+-doped K3NbO8 at 9.7 and 240 GHz, Physical Review B 78, 054426 (2008). pdf
8. GW Morley, K Porfyrakis, A Ardavan & J van Tol, Dynamic Nuclear Polarization with Simultaneous Excitation of Electronic and Nuclear Transitions, Applied Magnetic Resonance 34, 347 (2008). pdf
7. GW Morley, J van Tol, A Ardavan, K Porfyrakis, J Zhang & GAD Briggs, Efficient Dynamic Nuclear Polarization at High Magnetic Fields, Physical Review Letters 98, 220501 (2007). pdf
Also Erratum at Physical Review Letters 103, 199902 (2009). pdf
6. GW Morley, L Hao & J Macfarlane, A Double-SQUID for Sensitive Magnetic Field Measurements, US patent granted: number US 2007/0241747 A1 (2007).
5. GW Morley, BJ Herbert, SM Lee, K Porfyrakis, TJS Dennis, D Nguyen-Manh, R Scipioni, J van Tol, A P Horsfield, A Ardavan, DG Pettifor, JC Green & GAD Briggs, Hyperfine Structure of Sc@C82 from ESR and DFT, Nanotechnology 16, 2416 (2005). pdf
4. K Porfyrakis, M Kanai, GW Morley, A Ardavan, TJS Dennis & GAD Briggs, Isolation and spectroscopic characterization of two isomers of the metalofullerene Nd@C82, AIP Conference Proceedings 786, 73-76 (2005). pdf
3. A Ardavan, M Austwick, SC Benjamin, GAD Briggs, TJS Dennis, A Ferguson, DG Hasko, M Kanai, AN Khlobystov, BW Lovett, GW Morley, RA Oliver, DG Pettifor, K Porfyrakis, JH Reina, JH Rice, JD Smith, RA Taylor, DA Williams, C Adelmann, H Mariette & RJ Hamers, Nanoscale solid-state quantum computing, Philosophical Transactions of the Royal Society 361, 1473 (2003). pdf
2. JM Parpia, GW Morley, P Vestey, J Nyeki, B Cowan & J Saunders, Torsion pendulum studies of thin 3He slabs, Physica B 329, 133 (2003). pdf
1. GW Morley, A Casey, CP Lusher, B Cowan, J Saunders & JM Parpia, Torsion pendulum for the study of thin 3He films, Journal of Low Temperature Physics 126, 557 (2002). pdf