Neil Alford


Neil McNeill Alford is a British materials scientist and professor of Physical Electronics and Thin Film Materials at Imperial College London. He is known for research in functional materials, particularly microwave dielectrics, ferroelectric thin films, and the development of the first room-temperature solid-state maser.

Early life and education

Alford received a BSc in physics from the University of St Andrews in 1973. He worked as a petroleum engineer in Southeast Asia and South America before returning to the UK to complete a PhD in fracture mechanics at Queen Mary University of London in 1979.

Career

Alford conducted postdoctoral research at the University of Oxford as an ICI Fellow, developing high-strength cement with Imperial Chemical Industries. He later worked at the ICI Corporate Laboratory from 1981 to 1994 on cement, ceramics, and high-temperature superconductors, with applications that were later commercialised by ISCO International.
In 1994 Alford was appointed professor and Pro-Dean of Faculty at London South Bank University, where he researched superconducting magnetic resonance coils, microwave dielectrics, and ferroelectric thin films. His work on ultra-low-loss alumina resonators and TiO2 defect chemistry contributed to high-performance dielectric materials used by Antenova, a communications company specialising in antennas.
Alford joined Imperial College London in 2007 as Professor of Physical Electronics and Thin Film Materials. He subsequently held a series of senior leadership positions at the institution, including Head of the Department of Materials from 2010 to 2015, Vice-Dean of the Faculty of Engineering from 2011 to 2016, Acting Vice-Provost between 2015 and 2016, and Associate Provost from 2016 to 2022.

Research

Alford’s research has focused on functional materials, particularly low microwave dielectric loss oxides. His work contributed to understanding the factors influencing dielectric loss in oxides and to the development of models describing these mechanisms.
At Imperial Chemical Industries he worked on high-temperature superconductors, developing processes for producing low surface resistance thick films of YBa2Cu3O7, which were later commercialised by Illinois Superconductor Corporation.
Alford’s later work led to a series of discoveries in solid-state masers. In 2012 his group demonstrated the first room-temperature, Earth’s field maser using an organic crystal, followed by a miniaturised version in 2015, and the first continuous-wave masing in diamond with nitrogen-vacancy centres in 2018.

Honours and awards

Selected publications

  • Alford, N. M.; Penn, S. J.. "Sintered alumina with low dielectric loss". Journal of Applied Physics, 80, 5895–5898.
  • Penn, S. J.; Alford, N. McN.; Templeton, A.; Wang, X.; Xu, M.; Reece, M.; Schrapel, K.. "Effect of porosity and grain size on the microwave dielectric properties of sintered alumina". Journal of the American Ceramic Society, 80, 1885–1888.
  • Templeton, A.; Wang, X.; Penn, S. J.; Webb, S. J.; Cohen, L. F.; Alford, N. McN.. "Microwave dielectric loss of titanium oxide". Journal of the American Ceramic Society, 83, 95–100.
  • Breeze, J. D.; Perkins, J. M.; McComb, D. W.; Alford, N. M.. "Do grain boundaries affect microwave dielectric loss in oxides?" Journal of the American Ceramic Society, 92, 671–674.
  • Breeze, J.; Oxborrow, M.; Alford, N. McN.. "Better than Bragg: Optimizing the quality factor of resonators with aperiodic dielectric reflectors". Applied Physics Letters, 99, 113515.
  • Oxborrow, M.; Breeze, J.; Alford, N. McN.. "Room temperature solid-state maser". Nature, 488, 353–356.
  • Breeze, J. D.; Salvadori, E.; Sathian, J.; Alford, N. McN.; Kay, C.. "Continuous-wave room-temperature diamond maser". Nature, 555, 493–496.
  • Wen, Y.; Diggle, P. L.; Alford, N. McN.; Arroo, D. M.. "Exploring the spin dynamics of a room-temperature diamond maser using an extended rate equation model". Journal of Applied Physics, 134, 194501.